• Search Menu
  • Browse content in Arts and Humanities
  • Browse content in Archaeology
  • Anglo-Saxon and Medieval Archaeology
  • Archaeological Methodology and Techniques
  • Archaeology by Region
  • Archaeology of Religion
  • Archaeology of Trade and Exchange
  • Biblical Archaeology
  • Contemporary and Public Archaeology
  • Environmental Archaeology
  • Historical Archaeology
  • History and Theory of Archaeology
  • Industrial Archaeology
  • Landscape Archaeology
  • Mortuary Archaeology
  • Prehistoric Archaeology
  • Underwater Archaeology
  • Urban Archaeology
  • Zooarchaeology
  • Browse content in Architecture
  • Architectural Structure and Design
  • History of Architecture
  • Residential and Domestic Buildings
  • Theory of Architecture
  • Browse content in Art
  • Art Subjects and Themes
  • History of Art
  • Industrial and Commercial Art
  • Theory of Art
  • Biographical Studies
  • Byzantine Studies
  • Browse content in Classical Studies
  • Classical History
  • Classical Philosophy
  • Classical Mythology
  • Classical Literature
  • Classical Reception
  • Classical Art and Architecture
  • Classical Oratory and Rhetoric
  • Greek and Roman Epigraphy
  • Greek and Roman Law
  • Greek and Roman Archaeology
  • Greek and Roman Papyrology
  • Late Antiquity
  • Religion in the Ancient World
  • Digital Humanities
  • Browse content in History
  • Colonialism and Imperialism
  • Diplomatic History
  • Environmental History
  • Genealogy, Heraldry, Names, and Honours
  • Genocide and Ethnic Cleansing
  • Historical Geography
  • History by Period
  • History of Agriculture
  • History of Education
  • History of Emotions
  • History of Gender and Sexuality
  • Industrial History
  • Intellectual History
  • International History
  • Labour History
  • Legal and Constitutional History
  • Local and Family History
  • Maritime History
  • Military History
  • National Liberation and Post-Colonialism
  • Oral History
  • Political History
  • Public History
  • Regional and National History
  • Revolutions and Rebellions
  • Slavery and Abolition of Slavery
  • Social and Cultural History
  • Theory, Methods, and Historiography
  • Urban History
  • World History
  • Browse content in Language Teaching and Learning
  • Language Learning (Specific Skills)
  • Language Teaching Theory and Methods
  • Browse content in Linguistics
  • Applied Linguistics
  • Cognitive Linguistics
  • Computational Linguistics
  • Forensic Linguistics
  • Grammar, Syntax and Morphology
  • Historical and Diachronic Linguistics
  • History of English
  • Language Acquisition
  • Language Variation
  • Language Families
  • Language Evolution
  • Language Reference
  • Lexicography
  • Linguistic Theories
  • Linguistic Typology
  • Linguistic Anthropology
  • Phonetics and Phonology
  • Psycholinguistics
  • Sociolinguistics
  • Translation and Interpretation
  • Writing Systems
  • Browse content in Literature
  • Bibliography
  • Children's Literature Studies
  • Literary Studies (Asian)
  • Literary Studies (European)
  • Literary Studies (Eco-criticism)
  • Literary Studies (Modernism)
  • Literary Studies (Romanticism)
  • Literary Studies (American)
  • Literary Studies - World
  • Literary Studies (1500 to 1800)
  • Literary Studies (19th Century)
  • Literary Studies (20th Century onwards)
  • Literary Studies (African American Literature)
  • Literary Studies (British and Irish)
  • Literary Studies (Early and Medieval)
  • Literary Studies (Fiction, Novelists, and Prose Writers)
  • Literary Studies (Gender Studies)
  • Literary Studies (Graphic Novels)
  • Literary Studies (History of the Book)
  • Literary Studies (Plays and Playwrights)
  • Literary Studies (Poetry and Poets)
  • Literary Studies (Postcolonial Literature)
  • Literary Studies (Queer Studies)
  • Literary Studies (Science Fiction)
  • Literary Studies (Travel Literature)
  • Literary Studies (War Literature)
  • Literary Studies (Women's Writing)
  • Literary Theory and Cultural Studies
  • Mythology and Folklore
  • Shakespeare Studies and Criticism
  • Browse content in Media Studies
  • Browse content in Music
  • Applied Music
  • Dance and Music
  • Ethics in Music
  • Ethnomusicology
  • Gender and Sexuality in Music
  • Medicine and Music
  • Music Cultures
  • Music and Religion
  • Music and Culture
  • Music and Media
  • Music Education and Pedagogy
  • Music Theory and Analysis
  • Musical Scores, Lyrics, and Libretti
  • Musical Structures, Styles, and Techniques
  • Musicology and Music History
  • Performance Practice and Studies
  • Race and Ethnicity in Music
  • Sound Studies
  • Browse content in Performing Arts
  • Browse content in Philosophy
  • Aesthetics and Philosophy of Art
  • Epistemology
  • Feminist Philosophy
  • History of Western Philosophy
  • Metaphysics
  • Moral Philosophy
  • Non-Western Philosophy
  • Philosophy of Science
  • Philosophy of Action
  • Philosophy of Law
  • Philosophy of Religion
  • Philosophy of Language
  • Philosophy of Mind
  • Philosophy of Perception
  • Philosophy of Mathematics and Logic
  • Practical Ethics
  • Social and Political Philosophy
  • Browse content in Religion
  • Biblical Studies
  • Christianity
  • East Asian Religions
  • History of Religion
  • Judaism and Jewish Studies
  • Qumran Studies
  • Religion and Education
  • Religion and Health
  • Religion and Politics
  • Religion and Science
  • Religion and Law
  • Religion and Art, Literature, and Music
  • Religious Studies
  • Browse content in Society and Culture
  • Cookery, Food, and Drink
  • Cultural Studies
  • Customs and Traditions
  • Ethical Issues and Debates
  • Hobbies, Games, Arts and Crafts
  • Lifestyle, Home, and Garden
  • Natural world, Country Life, and Pets
  • Popular Beliefs and Controversial Knowledge
  • Sports and Outdoor Recreation
  • Technology and Society
  • Travel and Holiday
  • Visual Culture
  • Browse content in Law
  • Arbitration
  • Browse content in Company and Commercial Law
  • Commercial Law
  • Company Law
  • Browse content in Comparative Law
  • Systems of Law
  • Competition Law
  • Browse content in Constitutional and Administrative Law
  • Government Powers
  • Judicial Review
  • Local Government Law
  • Military and Defence Law
  • Parliamentary and Legislative Practice
  • Construction Law
  • Contract Law
  • Browse content in Criminal Law
  • Criminal Procedure
  • Criminal Evidence Law
  • Sentencing and Punishment
  • Employment and Labour Law
  • Environment and Energy Law
  • Browse content in Financial Law
  • Banking Law
  • Insolvency Law
  • History of Law
  • Human Rights and Immigration
  • Intellectual Property Law
  • Browse content in International Law
  • Private International Law and Conflict of Laws
  • Public International Law
  • IT and Communications Law
  • Jurisprudence and Philosophy of Law
  • Law and Politics
  • Law and Society
  • Browse content in Legal System and Practice
  • Courts and Procedure
  • Legal Skills and Practice
  • Primary Sources of Law
  • Regulation of Legal Profession
  • Medical and Healthcare Law
  • Browse content in Policing
  • Criminal Investigation and Detection
  • Police and Security Services
  • Police Procedure and Law
  • Police Regional Planning
  • Browse content in Property Law
  • Personal Property Law
  • Study and Revision
  • Terrorism and National Security Law
  • Browse content in Trusts Law
  • Wills and Probate or Succession
  • Browse content in Medicine and Health
  • Browse content in Allied Health Professions
  • Arts Therapies
  • Clinical Science
  • Dietetics and Nutrition
  • Occupational Therapy
  • Operating Department Practice
  • Physiotherapy
  • Radiography
  • Speech and Language Therapy
  • Browse content in Anaesthetics
  • General Anaesthesia
  • Neuroanaesthesia
  • Browse content in Clinical Medicine
  • Acute Medicine
  • Cardiovascular Medicine
  • Clinical Genetics
  • Clinical Pharmacology and Therapeutics
  • Dermatology
  • Endocrinology and Diabetes
  • Gastroenterology
  • Genito-urinary Medicine
  • Geriatric Medicine
  • Infectious Diseases
  • Medical Oncology
  • Medical Toxicology
  • Pain Medicine
  • Palliative Medicine
  • Rehabilitation Medicine
  • Respiratory Medicine and Pulmonology
  • Rheumatology
  • Sleep Medicine
  • Sports and Exercise Medicine
  • Clinical Neuroscience
  • Community Medical Services
  • Critical Care
  • Emergency Medicine
  • Forensic Medicine
  • Haematology
  • History of Medicine
  • Browse content in Medical Dentistry
  • Oral and Maxillofacial Surgery
  • Paediatric Dentistry
  • Restorative Dentistry and Orthodontics
  • Surgical Dentistry
  • Medical Ethics
  • Browse content in Medical Skills
  • Clinical Skills
  • Communication Skills
  • Nursing Skills
  • Surgical Skills
  • Medical Statistics and Methodology
  • Browse content in Neurology
  • Clinical Neurophysiology
  • Neuropathology
  • Nursing Studies
  • Browse content in Obstetrics and Gynaecology
  • Gynaecology
  • Occupational Medicine
  • Ophthalmology
  • Otolaryngology (ENT)
  • Browse content in Paediatrics
  • Neonatology
  • Browse content in Pathology
  • Chemical Pathology
  • Clinical Cytogenetics and Molecular Genetics
  • Histopathology
  • Medical Microbiology and Virology
  • Patient Education and Information
  • Browse content in Pharmacology
  • Psychopharmacology
  • Browse content in Popular Health
  • Caring for Others
  • Complementary and Alternative Medicine
  • Self-help and Personal Development
  • Browse content in Preclinical Medicine
  • Cell Biology
  • Molecular Biology and Genetics
  • Reproduction, Growth and Development
  • Primary Care
  • Professional Development in Medicine
  • Browse content in Psychiatry
  • Addiction Medicine
  • Child and Adolescent Psychiatry
  • Forensic Psychiatry
  • Learning Disabilities
  • Old Age Psychiatry
  • Psychotherapy
  • Browse content in Public Health and Epidemiology
  • Epidemiology
  • Public Health
  • Browse content in Radiology
  • Clinical Radiology
  • Interventional Radiology
  • Nuclear Medicine
  • Radiation Oncology
  • Reproductive Medicine
  • Browse content in Surgery
  • Cardiothoracic Surgery
  • Gastro-intestinal and Colorectal Surgery
  • General Surgery
  • Neurosurgery
  • Paediatric Surgery
  • Peri-operative Care
  • Plastic and Reconstructive Surgery
  • Surgical Oncology
  • Transplant Surgery
  • Trauma and Orthopaedic Surgery
  • Vascular Surgery
  • Browse content in Science and Mathematics
  • Browse content in Biological Sciences
  • Aquatic Biology
  • Biochemistry
  • Bioinformatics and Computational Biology
  • Developmental Biology
  • Ecology and Conservation
  • Evolutionary Biology
  • Genetics and Genomics
  • Microbiology
  • Molecular and Cell Biology
  • Natural History
  • Plant Sciences and Forestry
  • Research Methods in Life Sciences
  • Structural Biology
  • Systems Biology
  • Zoology and Animal Sciences
  • Browse content in Chemistry
  • Analytical Chemistry
  • Computational Chemistry
  • Crystallography
  • Environmental Chemistry
  • Industrial Chemistry
  • Inorganic Chemistry
  • Materials Chemistry
  • Medicinal Chemistry
  • Mineralogy and Gems
  • Organic Chemistry
  • Physical Chemistry
  • Polymer Chemistry
  • Study and Communication Skills in Chemistry
  • Theoretical Chemistry
  • Browse content in Computer Science
  • Artificial Intelligence
  • Computer Architecture and Logic Design
  • Game Studies
  • Human-Computer Interaction
  • Mathematical Theory of Computation
  • Programming Languages
  • Software Engineering
  • Systems Analysis and Design
  • Virtual Reality
  • Browse content in Computing
  • Business Applications
  • Computer Security
  • Computer Games
  • Computer Networking and Communications
  • Digital Lifestyle
  • Graphical and Digital Media Applications
  • Operating Systems
  • Browse content in Earth Sciences and Geography
  • Atmospheric Sciences
  • Environmental Geography
  • Geology and the Lithosphere
  • Maps and Map-making
  • Meteorology and Climatology
  • Oceanography and Hydrology
  • Palaeontology
  • Physical Geography and Topography
  • Regional Geography
  • Soil Science
  • Urban Geography
  • Browse content in Engineering and Technology
  • Agriculture and Farming
  • Biological Engineering
  • Civil Engineering, Surveying, and Building
  • Electronics and Communications Engineering
  • Energy Technology
  • Engineering (General)
  • Environmental Science, Engineering, and Technology
  • History of Engineering and Technology
  • Mechanical Engineering and Materials
  • Technology of Industrial Chemistry
  • Transport Technology and Trades
  • Browse content in Environmental Science
  • Applied Ecology (Environmental Science)
  • Conservation of the Environment (Environmental Science)
  • Environmental Sustainability
  • Environmentalist Thought and Ideology (Environmental Science)
  • Management of Land and Natural Resources (Environmental Science)
  • Natural Disasters (Environmental Science)
  • Nuclear Issues (Environmental Science)
  • Pollution and Threats to the Environment (Environmental Science)
  • Social Impact of Environmental Issues (Environmental Science)
  • History of Science and Technology
  • Browse content in Materials Science
  • Ceramics and Glasses
  • Composite Materials
  • Metals, Alloying, and Corrosion
  • Nanotechnology
  • Browse content in Mathematics
  • Applied Mathematics
  • Biomathematics and Statistics
  • History of Mathematics
  • Mathematical Education
  • Mathematical Finance
  • Mathematical Analysis
  • Numerical and Computational Mathematics
  • Probability and Statistics
  • Pure Mathematics
  • Browse content in Neuroscience
  • Cognition and Behavioural Neuroscience
  • Development of the Nervous System
  • Disorders of the Nervous System
  • History of Neuroscience
  • Invertebrate Neurobiology
  • Molecular and Cellular Systems
  • Neuroendocrinology and Autonomic Nervous System
  • Neuroscientific Techniques
  • Sensory and Motor Systems
  • Browse content in Physics
  • Astronomy and Astrophysics
  • Atomic, Molecular, and Optical Physics
  • Biological and Medical Physics
  • Classical Mechanics
  • Computational Physics
  • Condensed Matter Physics
  • Electromagnetism, Optics, and Acoustics
  • History of Physics
  • Mathematical and Statistical Physics
  • Measurement Science
  • Nuclear Physics
  • Particles and Fields
  • Plasma Physics
  • Quantum Physics
  • Relativity and Gravitation
  • Semiconductor and Mesoscopic Physics
  • Browse content in Psychology
  • Affective Sciences
  • Clinical Psychology
  • Cognitive Neuroscience
  • Cognitive Psychology
  • Criminal and Forensic Psychology
  • Developmental Psychology
  • Educational Psychology
  • Evolutionary Psychology
  • Health Psychology
  • History and Systems in Psychology
  • Music Psychology
  • Neuropsychology
  • Organizational Psychology
  • Psychological Assessment and Testing
  • Psychology of Human-Technology Interaction
  • Psychology Professional Development and Training
  • Research Methods in Psychology
  • Social Psychology
  • Browse content in Social Sciences
  • Browse content in Anthropology
  • Anthropology of Religion
  • Human Evolution
  • Medical Anthropology
  • Physical Anthropology
  • Regional Anthropology
  • Social and Cultural Anthropology
  • Theory and Practice of Anthropology
  • Browse content in Business and Management
  • Business Strategy
  • Business History
  • Business Ethics
  • Business and Government
  • Business and Technology
  • Business and the Environment
  • Comparative Management
  • Corporate Governance
  • Corporate Social Responsibility
  • Entrepreneurship
  • Health Management
  • Human Resource Management
  • Industrial and Employment Relations
  • Industry Studies
  • Information and Communication Technologies
  • International Business
  • Knowledge Management
  • Management and Management Techniques
  • Operations Management
  • Organizational Theory and Behaviour
  • Pensions and Pension Management
  • Public and Nonprofit Management
  • Strategic Management
  • Supply Chain Management
  • Browse content in Criminology and Criminal Justice
  • Criminal Justice
  • Criminology
  • Forms of Crime
  • International and Comparative Criminology
  • Youth Violence and Juvenile Justice
  • Development Studies
  • Browse content in Economics
  • Agricultural, Environmental, and Natural Resource Economics
  • Asian Economics
  • Behavioural Finance
  • Behavioural Economics and Neuroeconomics
  • Econometrics and Mathematical Economics
  • Economic Systems
  • Economic Methodology
  • Economic History
  • Economic Development and Growth
  • Financial Markets
  • Financial Institutions and Services
  • General Economics and Teaching
  • Health, Education, and Welfare
  • History of Economic Thought
  • International Economics
  • Labour and Demographic Economics
  • Law and Economics
  • Macroeconomics and Monetary Economics
  • Microeconomics
  • Public Economics
  • Urban, Rural, and Regional Economics
  • Welfare Economics
  • Browse content in Education
  • Adult Education and Continuous Learning
  • Care and Counselling of Students
  • Early Childhood and Elementary Education
  • Educational Equipment and Technology
  • Educational Strategies and Policy
  • Higher and Further Education
  • Organization and Management of Education
  • Philosophy and Theory of Education
  • Schools Studies
  • Secondary Education
  • Teaching of a Specific Subject
  • Teaching of Specific Groups and Special Educational Needs
  • Teaching Skills and Techniques
  • Browse content in Environment
  • Applied Ecology (Social Science)
  • Climate Change
  • Conservation of the Environment (Social Science)
  • Environmentalist Thought and Ideology (Social Science)
  • Natural Disasters (Environment)
  • Social Impact of Environmental Issues (Social Science)
  • Browse content in Human Geography
  • Cultural Geography
  • Economic Geography
  • Political Geography
  • Browse content in Interdisciplinary Studies
  • Communication Studies
  • Museums, Libraries, and Information Sciences
  • Browse content in Politics
  • African Politics
  • Asian Politics
  • Chinese Politics
  • Comparative Politics
  • Conflict Politics
  • Elections and Electoral Studies
  • Environmental Politics
  • European Union
  • Foreign Policy
  • Gender and Politics
  • Human Rights and Politics
  • Indian Politics
  • International Relations
  • International Organization (Politics)
  • International Political Economy
  • Irish Politics
  • Latin American Politics
  • Middle Eastern Politics
  • Political Methodology
  • Political Communication
  • Political Philosophy
  • Political Sociology
  • Political Theory
  • Political Behaviour
  • Political Economy
  • Political Institutions
  • Politics and Law
  • Public Administration
  • Public Policy
  • Quantitative Political Methodology
  • Regional Political Studies
  • Russian Politics
  • Security Studies
  • State and Local Government
  • UK Politics
  • US Politics
  • Browse content in Regional and Area Studies
  • African Studies
  • Asian Studies
  • East Asian Studies
  • Japanese Studies
  • Latin American Studies
  • Middle Eastern Studies
  • Native American Studies
  • Scottish Studies
  • Browse content in Research and Information
  • Research Methods
  • Browse content in Social Work
  • Addictions and Substance Misuse
  • Adoption and Fostering
  • Care of the Elderly
  • Child and Adolescent Social Work
  • Couple and Family Social Work
  • Developmental and Physical Disabilities Social Work
  • Direct Practice and Clinical Social Work
  • Emergency Services
  • Human Behaviour and the Social Environment
  • International and Global Issues in Social Work
  • Mental and Behavioural Health
  • Social Justice and Human Rights
  • Social Policy and Advocacy
  • Social Work and Crime and Justice
  • Social Work Macro Practice
  • Social Work Practice Settings
  • Social Work Research and Evidence-based Practice
  • Welfare and Benefit Systems
  • Browse content in Sociology
  • Childhood Studies
  • Community Development
  • Comparative and Historical Sociology
  • Economic Sociology
  • Gender and Sexuality
  • Gerontology and Ageing
  • Health, Illness, and Medicine
  • Marriage and the Family
  • Migration Studies
  • Occupations, Professions, and Work
  • Organizations
  • Population and Demography
  • Race and Ethnicity
  • Social Theory
  • Social Movements and Social Change
  • Social Research and Statistics
  • Social Stratification, Inequality, and Mobility
  • Sociology of Religion
  • Sociology of Education
  • Sport and Leisure
  • Urban and Rural Studies
  • Browse content in Warfare and Defence
  • Defence Strategy, Planning, and Research
  • Land Forces and Warfare
  • Military Administration
  • Military Life and Institutions
  • Naval Forces and Warfare
  • Other Warfare and Defence Issues
  • Peace Studies and Conflict Resolution
  • Weapons and Equipment

Building Strategic Skills for Better Health: A Primer for Public Health Professionals

  • < Previous chapter
  • Next chapter >

9 Problem-Solving and Decision-Making Skills for Public Health Practice

  • Published: October 2023
  • Cite Icon Cite
  • Permissions Icon Permissions

This chapter provides an initial definition of problem-solving and the components of the problem-solving process. It identifies common mistakes early in the process and their implications. It explains that the first step toward successful problem-solving is thoroughly and accurately defining the problem and acknowledging that multiple solutions must be considered. It explores multiple approaches to problem-solving, such as rational problem-solving and organic problem-solving, as well as a type of organic problem-solving called appreciative inquiry. The chapter also explores seven decision-making styles and elaborates on common mistakes made during the process, as well as how to overcome them.

Signed in as

Institutional accounts.

  • GoogleCrawler [DO NOT DELETE]
  • Google Scholar Indexing

Personal account

  • Sign in with email/username & password
  • Get email alerts
  • Save searches
  • Purchase content
  • Activate your purchase/trial code

Institutional access

  • Sign in with a library card Sign in with username/password Recommend to your librarian
  • Institutional account management
  • Get help with access

Access to content on Oxford Academic is often provided through institutional subscriptions and purchases. If you are a member of an institution with an active account, you may be able to access content in one of the following ways:

IP based access

Typically, access is provided across an institutional network to a range of IP addresses. This authentication occurs automatically, and it is not possible to sign out of an IP authenticated account.

Sign in through your institution

Choose this option to get remote access when outside your institution. Shibboleth/Open Athens technology is used to provide single sign-on between your institution’s website and Oxford Academic.

  • Click Sign in through your institution.
  • Select your institution from the list provided, which will take you to your institution's website to sign in.
  • When on the institution site, please use the credentials provided by your institution. Do not use an Oxford Academic personal account.
  • Following successful sign in, you will be returned to Oxford Academic.

If your institution is not listed or you cannot sign in to your institution’s website, please contact your librarian or administrator.

Sign in with a library card

Enter your library card number to sign in. If you cannot sign in, please contact your librarian.

Society Members

Society member access to a journal is achieved in one of the following ways:

Sign in through society site

Many societies offer single sign-on between the society website and Oxford Academic. If you see ‘Sign in through society site’ in the sign in pane within a journal:

  • Click Sign in through society site.
  • When on the society site, please use the credentials provided by that society. Do not use an Oxford Academic personal account.

If you do not have a society account or have forgotten your username or password, please contact your society.

Sign in using a personal account

Some societies use Oxford Academic personal accounts to provide access to their members. See below.

A personal account can be used to get email alerts, save searches, purchase content, and activate subscriptions.

Some societies use Oxford Academic personal accounts to provide access to their members.

Viewing your signed in accounts

Click the account icon in the top right to:

  • View your signed in personal account and access account management features.
  • View the institutional accounts that are providing access.

Signed in but can't access content

Oxford Academic is home to a wide variety of products. The institutional subscription may not cover the content that you are trying to access. If you believe you should have access to that content, please contact your librarian.

For librarians and administrators, your personal account also provides access to institutional account management. Here you will find options to view and activate subscriptions, manage institutional settings and access options, access usage statistics, and more.

Our books are available by subscription or purchase to libraries and institutions.

  • About Oxford Academic
  • Publish journals with us
  • University press partners
  • What we publish
  • New features  
  • Open access
  • Rights and permissions
  • Accessibility
  • Advertising
  • Media enquiries
  • Oxford University Press
  • Oxford Languages
  • University of Oxford

Oxford University Press is a department of the University of Oxford. It furthers the University's objective of excellence in research, scholarship, and education by publishing worldwide

  • Copyright © 2024 Oxford University Press
  • Cookie settings
  • Cookie policy
  • Privacy policy
  • Legal notice

This Feature Is Available To Subscribers Only

Sign In or Create an Account

This PDF is available to Subscribers Only

For full access to this pdf, sign in to an existing account, or purchase an annual subscription.

The Value of Critical Thinking in Nursing

Gayle Morris, BSN, MSN

  • How Nurses Use Critical Thinking
  • How to Improve Critical Thinking
  • Common Mistakes

Male nurse checking on a patient

Some experts describe a person’s ability to question belief systems, test previously held assumptions, and recognize ambiguity as evidence of critical thinking. Others identify specific skills that demonstrate critical thinking, such as the ability to identify problems and biases, infer and draw conclusions, and determine the relevance of information to a situation.

Nicholas McGowan, BSN, RN, CCRN, has been a critical care nurse for 10 years in neurological trauma nursing and cardiovascular and surgical intensive care. He defines critical thinking as “necessary for problem-solving and decision-making by healthcare providers. It is a process where people use a logical process to gather information and take purposeful action based on their evaluation.”

“This cognitive process is vital for excellent patient outcomes because it requires that nurses make clinical decisions utilizing a variety of different lenses, such as fairness, ethics, and evidence-based practice,” he says.

How Do Nurses Use Critical Thinking?

Successful nurses think beyond their assigned tasks to deliver excellent care for their patients. For example, a nurse might be tasked with changing a wound dressing, delivering medications, and monitoring vital signs during a shift. However, it requires critical thinking skills to understand how a difference in the wound may affect blood pressure and temperature and when those changes may require immediate medical intervention.

Nurses care for many patients during their shifts. Strong critical thinking skills are crucial when juggling various tasks so patient safety and care are not compromised.

Jenna Liphart Rhoads, Ph.D., RN, is a nurse educator with a clinical background in surgical-trauma adult critical care, where critical thinking and action were essential to the safety of her patients. She talks about examples of critical thinking in a healthcare environment, saying:

“Nurses must also critically think to determine which patient to see first, which medications to pass first, and the order in which to organize their day caring for patients. Patient conditions and environments are continually in flux, therefore nurses must constantly be evaluating and re-evaluating information they gather (assess) to keep their patients safe.”

The COVID-19 pandemic created hospital care situations where critical thinking was essential. It was expected of the nurses on the general floor and in intensive care units. Crystal Slaughter is an advanced practice nurse in the intensive care unit (ICU) and a nurse educator. She observed critical thinking throughout the pandemic as she watched intensive care nurses test the boundaries of previously held beliefs and master providing excellent care while preserving resources.

“Nurses are at the patient’s bedside and are often the first ones to detect issues. Then, the nurse needs to gather the appropriate subjective and objective data from the patient in order to frame a concise problem statement or question for the physician or advanced practice provider,” she explains.

Top 5 Ways Nurses Can Improve Critical Thinking Skills

We asked our experts for the top five strategies nurses can use to purposefully improve their critical thinking skills.

Case-Based Approach

Slaughter is a fan of the case-based approach to learning critical thinking skills.

In much the same way a detective would approach a mystery, she mentors her students to ask questions about the situation that help determine the information they have and the information they need. “What is going on? What information am I missing? Can I get that information? What does that information mean for the patient? How quickly do I need to act?”

Consider forming a group and working with a mentor who can guide you through case studies. This provides you with a learner-centered environment in which you can analyze data to reach conclusions and develop communication, analytical, and collaborative skills with your colleagues.

Practice Self-Reflection

Rhoads is an advocate for self-reflection. “Nurses should reflect upon what went well or did not go well in their workday and identify areas of improvement or situations in which they should have reached out for help.” Self-reflection is a form of personal analysis to observe and evaluate situations and how you responded.

This gives you the opportunity to discover mistakes you may have made and to establish new behavior patterns that may help you make better decisions. You likely already do this. For example, after a disagreement or contentious meeting, you may go over the conversation in your head and think about ways you could have responded.

It’s important to go through the decisions you made during your day and determine if you should have gotten more information before acting or if you could have asked better questions.

During self-reflection, you may try thinking about the problem in reverse. This may not give you an immediate answer, but can help you see the situation with fresh eyes and a new perspective. How would the outcome of the day be different if you planned the dressing change in reverse with the assumption you would find a wound infection? How does this information change your plan for the next dressing change?

Develop a Questioning Mind

McGowan has learned that “critical thinking is a self-driven process. It isn’t something that can simply be taught. Rather, it is something that you practice and cultivate with experience. To develop critical thinking skills, you have to be curious and inquisitive.”

To gain critical thinking skills, you must undergo a purposeful process of learning strategies and using them consistently so they become a habit. One of those strategies is developing a questioning mind. Meaningful questions lead to useful answers and are at the core of critical thinking .

However, learning to ask insightful questions is a skill you must develop. Faced with staff and nursing shortages , declining patient conditions, and a rising number of tasks to be completed, it may be difficult to do more than finish the task in front of you. Yet, questions drive active learning and train your brain to see the world differently and take nothing for granted.

It is easier to practice questioning in a non-stressful, quiet environment until it becomes a habit. Then, in the moment when your patient’s care depends on your ability to ask the right questions, you can be ready to rise to the occasion.

Practice Self-Awareness in the Moment

Critical thinking in nursing requires self-awareness and being present in the moment. During a hectic shift, it is easy to lose focus as you struggle to finish every task needed for your patients. Passing medication, changing dressings, and hanging intravenous lines all while trying to assess your patient’s mental and emotional status can affect your focus and how you manage stress as a nurse .

Staying present helps you to be proactive in your thinking and anticipate what might happen, such as bringing extra lubricant for a catheterization or extra gloves for a dressing change.

By staying present, you are also better able to practice active listening. This raises your assessment skills and gives you more information as a basis for your interventions and decisions.

Use a Process

As you are developing critical thinking skills, it can be helpful to use a process. For example:

  • Ask questions.
  • Gather information.
  • Implement a strategy.
  • Evaluate the results.
  • Consider another point of view.

These are the fundamental steps of the nursing process (assess, diagnose, plan, implement, evaluate). The last step will help you overcome one of the common problems of critical thinking in nursing — personal bias.

Common Critical Thinking Pitfalls in Nursing

Your brain uses a set of processes to make inferences about what’s happening around you. In some cases, your unreliable biases can lead you down the wrong path. McGowan places personal biases at the top of his list of common pitfalls to critical thinking in nursing.

“We all form biases based on our own experiences. However, nurses have to learn to separate their own biases from each patient encounter to avoid making false assumptions that may interfere with their care,” he says. Successful critical thinkers accept they have personal biases and learn to look out for them. Awareness of your biases is the first step to understanding if your personal bias is contributing to the wrong decision.

New nurses may be overwhelmed by the transition from academics to clinical practice, leading to a task-oriented mindset and a common new nurse mistake ; this conflicts with critical thinking skills.

“Consider a patient whose blood pressure is low but who also needs to take a blood pressure medication at a scheduled time. A task-oriented nurse may provide the medication without regard for the patient’s blood pressure because medication administration is a task that must be completed,” Slaughter says. “A nurse employing critical thinking skills would address the low blood pressure, review the patient’s blood pressure history and trends, and potentially call the physician to discuss whether medication should be withheld.”

Fear and pride may also stand in the way of developing critical thinking skills. Your belief system and worldview provide comfort and guidance, but this can impede your judgment when you are faced with an individual whose belief system or cultural practices are not the same as yours. Fear or pride may prevent you from pursuing a line of questioning that would benefit the patient. Nurses with strong critical thinking skills exhibit:

  • Learn from their mistakes and the mistakes of other nurses
  • Look forward to integrating changes that improve patient care
  • Treat each patient interaction as a part of a whole
  • Evaluate new events based on past knowledge and adjust decision-making as needed
  • Solve problems with their colleagues
  • Are self-confident
  • Acknowledge biases and seek to ensure these do not impact patient care

An Essential Skill for All Nurses

Critical thinking in nursing protects patient health and contributes to professional development and career advancement. Administrative and clinical nursing leaders are required to have strong critical thinking skills to be successful in their positions.

By using the strategies in this guide during your daily life and in your nursing role, you can intentionally improve your critical thinking abilities and be rewarded with better patient outcomes and potential career advancement.

Frequently Asked Questions About Critical Thinking in Nursing

How are critical thinking skills utilized in nursing practice.

Nursing practice utilizes critical thinking skills to provide the best care for patients. Often, the patient’s cause of pain or health issue is not immediately clear. Nursing professionals need to use their knowledge to determine what might be causing distress, collect vital information, and make quick decisions on how best to handle the situation.

How does nursing school develop critical thinking skills?

Nursing school gives students the knowledge professional nurses use to make important healthcare decisions for their patients. Students learn about diseases, anatomy, and physiology, and how to improve the patient’s overall well-being. Learners also participate in supervised clinical experiences, where they practice using their critical thinking skills to make decisions in professional settings.

Do only nurse managers use critical thinking?

Nurse managers certainly use critical thinking skills in their daily duties. But when working in a health setting, anyone giving care to patients uses their critical thinking skills. Everyone — including licensed practical nurses, registered nurses, and advanced nurse practitioners —needs to flex their critical thinking skills to make potentially life-saving decisions.

Meet Our Contributors

Portrait of Crystal Slaughter, DNP, APRN, ACNS-BC, CNE

Crystal Slaughter, DNP, APRN, ACNS-BC, CNE

Crystal Slaughter is a core faculty member in Walden University’s RN-to-BSN program. She has worked as an advanced practice registered nurse with an intensivist/pulmonary service to provide care to hospitalized ICU patients and in inpatient palliative care. Slaughter’s clinical interests lie in nursing education and evidence-based practice initiatives to promote improving patient care.

Portrait of Jenna Liphart Rhoads, Ph.D., RN

Jenna Liphart Rhoads, Ph.D., RN

Jenna Liphart Rhoads is a nurse educator and freelance author and editor. She earned a BSN from Saint Francis Medical Center College of Nursing and an MS in nursing education from Northern Illinois University. Rhoads earned a Ph.D. in education with a concentration in nursing education from Capella University where she researched the moderation effects of emotional intelligence on the relationship of stress and GPA in military veteran nursing students. Her clinical background includes surgical-trauma adult critical care, interventional radiology procedures, and conscious sedation in adult and pediatric populations.

Portrait of Nicholas McGowan, BSN, RN, CCRN

Nicholas McGowan, BSN, RN, CCRN

Nicholas McGowan is a critical care nurse with 10 years of experience in cardiovascular, surgical intensive care, and neurological trauma nursing. McGowan also has a background in education, leadership, and public speaking. He is an online learner who builds on his foundation of critical care nursing, which he uses directly at the bedside where he still practices. In addition, McGowan hosts an online course at Critical Care Academy where he helps nurses achieve critical care (CCRN) certification.

  • Research article
  • Open access
  • Published: 07 October 2020

Impact of social problem-solving training on critical thinking and decision making of nursing students

  • Soleiman Ahmady 1 &
  • Sara Shahbazi   ORCID: orcid.org/0000-0001-8397-6233 2 , 3  

BMC Nursing volume  19 , Article number:  94 ( 2020 ) Cite this article

29k Accesses

25 Citations

1 Altmetric

Metrics details

The complex health system and challenging patient care environment require experienced nurses, especially those with high cognitive skills such as problem-solving, decision- making and critical thinking. Therefore, this study investigated the impact of social problem-solving training on nursing students’ critical thinking and decision-making.

This study was quasi-experimental research and pre-test and post-test design and performed on 40 undergraduate/four-year students of nursing in Borujen Nursing School/Iran that was randomly divided into 2 groups; experimental ( n  = 20) and control (n = 20). Then, a social problem-solving course was held for the experimental group. A demographic questionnaire, social problem-solving inventory-revised, California critical thinking test, and decision-making questionnaire was used to collect the information. The reliability and validity of all of them were confirmed. Data analysis was performed using SPSS software and independent sampled T-test, paired T-test, square chi, and Pearson correlation coefficient.

The finding indicated that the social problem-solving course positively affected the student’ social problem-solving and decision-making and critical thinking skills after the instructional course in the experimental group ( P  < 0.05), but this result was not observed in the control group ( P  > 0.05).

Conclusions

The results showed that structured social problem-solving training could improve cognitive problem-solving, critical thinking, and decision-making skills. Considering this result, nursing education should be presented using new strategies and creative and different ways from traditional education methods. Cognitive skills training should be integrated in the nursing curriculum. Therefore, training cognitive skills such as problem- solving to nursing students is recommended.

Peer Review reports

Continuous monitoring and providing high-quality care to patients is one of the main tasks of nurses. Nurses’ roles are diverse and include care, educational, supportive, and interventional roles when dealing with patients’ clinical problems [ 1 , 2 ].

Providing professional nursing services requires the cognitive skills such as problem-solving, decision-making and critical thinking, and information synthesis [ 3 ].

Problem-solving is an essential skill in nursing. Improving this skill is very important for nurses because it is an intellectual process which requires the reflection and creative thinking [ 4 ].

Problem-solving skill means acquiring knowledge to reach a solution, and a person’s ability to use this knowledge to find a solution requires critical thinking. The promotion of these skills is considered a necessary condition for nurses’ performance in the nursing profession [ 5 , 6 ].

Managing the complexities and challenges of health systems requires competent nurses with high levels of critical thinking skills. A nurse’s critical thinking skills can affect patient safety because it enables nurses to correctly diagnose the patient’s initial problem and take the right action for the right reason [ 4 , 7 , 8 ].

Problem-solving and decision-making are complex and difficult processes for nurses, because they have to care for multiple patients with different problems in complex and unpredictable treatment environments [ 9 , 10 ].

Clinical decision making is an important element of professional nursing care; nurses’ ability to form effective clinical decisions is the most significant issue affecting the care standard. Nurses build 2 kinds of choices associated with the practice: patient care decisions that affect direct patient care and occupational decisions that affect the work context or teams [ 11 , 12 , 13 , 14 , 15 , 16 ].

The utilization of nursing process guarantees the provision of professional and effective care. The nursing process provides nurses with the chance to learn problem-solving skills through teamwork, health management, and patient care. Problem-solving is at the heart of nursing process which is why this skill underlies all nursing practices. Therefore, proper training of this skill in an undergraduate nursing program is essential [ 17 ].

Nursing students face unique problems which are specific to the clinical and therapeutic environment, causing a lot of stresses during clinical education. This stress can affect their problem- solving skills [ 18 , 19 , 20 , 21 ]. They need to promote their problem-solving and critical thinking skills to meet the complex needs of current healthcare settings and should be able to respond to changing circumstances and apply knowledge and skills in different clinical situations [ 22 ]. Institutions should provide this important opportunity for them.

Despite, the results of studies in nursing students show the weakness of their problem-solving skills, while in complex health environments and exposure to emerging diseases, nurses need to diagnose problems and solve them rapidly accurately. The teaching of these skills should begin in college and continue in health care environments [ 5 , 23 , 24 ].

It should not be forgotten that in addition to the problems caused by the patients’ disease, a large proportion of the problems facing nurses are related to the procedures of the natural life of their patients and their families, the majority of nurses with the rest of health team and the various roles defined for nurses [ 25 ].

Therefore, in addition to above- mentioned issues, other ability is required to deal with common problems in the working environment for nurses, the skill is “social problem solving”, because the term social problem-solving includes a method of problem-solving in the “natural context” or the “real world” [ 26 , 27 ]. In reviewing the existing research literature on the competencies and skills required by nursing students, what attracts a lot of attention is the weakness of basic skills and the lack of formal and systematic training of these skills in the nursing curriculum, it indicates a gap in this area [ 5 , 24 , 25 ]. In this regard, the researchers tried to reduce this significant gap by holding a formal problem-solving skills training course, emphasizing the common social issues in the real world of work. Therefore, this study was conducted to investigate the impact of social problem-solving skills training on nursing students’ critical thinking and decision-making.

Setting and sample

This quasi-experimental study with pretest and post-test design was performed on 40 undergraduate/four-year nursing students in Borujen nursing school in Shahrekord University of Medical Sciences. The periods of data collection were 4 months.

According to the fact that senior students of nursing have passed clinical training and internship programs, they have more familiarity with wards and treatment areas, patients and issues in treatment areas and also they have faced the problems which the nurses have with other health team personnel and patients and their families, they have been chosen for this study. Therefore, this study’s sampling method was based on the purpose, and the sample size was equal to the total population. The whole of four-year nursing students participated in this study and the sample size was 40 members. Participants was randomly divided in 2 groups; experimental ( n  = 20) and control (n = 20).

The inclusion criteria to take part in the present research were students’ willingness to take part, studying in the four-year nursing, not having the record of psychological sickness or using the related drugs (all based on their self-utterance).

Intervention

At the beginning of study, all students completed the demographic information’ questionnaire. The study’s intervening variables were controlled between the two groups [such as age, marital status, work experience, training courses, psychological illness, psychiatric medication use and improving cognitive skills courses (critical thinking, problem- solving, and decision making in the last 6 months)]. Both groups were homogeneous in terms of demographic variables ( P  > 0.05). Decision making and critical thinking skills and social problem solving of participants in 2 groups was evaluated before and 1 month after the intervention.

All questionnaires were anonymous and had an identification code which carefully distributed by the researcher.

To control the transfer of information among the students of two groups, the classification list of students for internships, provided by the head of nursing department at the beginning of semester, was used.

Furthermore, the groups with the odd number of experimental group and the groups with the even number formed the control group and thus were less in contact with each other.

The importance of not transferring information among groups was fully described to the experimental group. They were asked not to provide any information about the course to the students of the control group.

Then, training a course of social problem-solving skills for the experimental group, given in a separate course and the period from the nursing curriculum and was held in 8 sessions during 2 months, using small group discussion, brainstorming, case-based discussion, and reaching the solution in small 4 member groups, taking results of the social problem-solving model as mentioned by D-zurilla and gold fried [ 26 ]. The instructor was an assistant professor of university and had a history of teaching problem-solving courses. This model’ stages are explained in Table  1 .

All training sessions were performed due to the model, and one step of the model was implemented in each session. In each session, the teacher stated the educational objectives and asked the students to share their experiences in dealing to various workplace problems, home and community due to the topic of session. Besides, in each session, a case-based scenario was presented and thoroughly analyzed, and students discussed it.

Instruments

In this study, the data were collected using demographic variables questionnaire and social problem- solving inventory – revised (SPSI-R) developed by D’zurilla and Nezu (2002) [ 26 ], California critical thinking skills test- form B (CCTST; 1994) [ 27 , 28 ] and decision-making questionnaire.

SPSI-R is a self - reporting tool with 52 questions ranging from a Likert scale (1: Absolutely not – 5: very much).

The minimum score maybe 25 and at a maximum of 125, therefore:

The score 25 and 50: weak social problem-solving skills.

The score 50–75: moderate social problem-solving skills.

The score higher of 75: strong social problem-solving skills.

The reliability assessed by repeated tests is between 0.68 and 0.91, and its alpha coefficient between 0.69 and 0.95 was reported [ 26 ]. The structural validity of questionnaire has also been confirmed. All validity analyses have confirmed SPSI as a social problem - solving scale.

In Iran, the alpha coefficient of 0.85 is measured for five factors, and the retest reliability coefficient was obtained 0.88. All of the narratives analyzes confirmed SPSI as a social problem- solving scale [ 29 ].

California critical thinking skills test- form B(CCTST; 1994): This test is a standard tool for assessing the basic skills of critical thinking at the high school and higher education levels (Facione & Facione, 1992, 1998) [ 27 ].

This tool has 34 multiple-choice questions which assessed analysis, inference, and argument evaluation. Facione and Facione (1993) reported that a KR-20 range of 0.65 to 0.75 for this tool is acceptable [ 27 ].

In Iran, the KR-20 for the total scale was 0.62. This coefficient is acceptable for questionnaires that measure the level of thinking ability of individuals.

After changing the English names of this questionnaire to Persian, its content validity was approved by the Board of Experts.

The subscale analysis of Persian version of CCTST showed a positive high level of correlation between total test score and the components (analysis, r = 0.61; evaluation, r = 0.71; inference, r = 0.88; inductive reasoning, r = 0.73; and deductive reasoning, r = 0.74) [ 28 ].

A decision-making questionnaire with 20 questions was used to measure decision-making skills. This questionnaire was made by a researcher and was prepared under the supervision of a professor with psychometric expertise. Five professors confirmed the face and content validity of this questionnaire. The reliability was obtained at 0.87 which confirmed for 30 students using the test-retest method at a time interval of 2 weeks. Each question had four levels and a score from 0.25 to 1. The minimum score of this questionnaire was 5, and the maximum score was 20 [ 30 ].

Statistical analysis

For analyzing the applied data, the SPSS Version 16, and descriptive statistics tests, independent sample T-test, paired T-test, Pearson correlation coefficient, and square chi were used. The significant level was taken P  < 0.05.

The average age of students was 21.7 ± 1.34, and the academic average total score was 16.32 ± 2.83. Other demographic characteristics are presented in Table  2 .

None of the students had a history of psychiatric illness or psychiatric drug use. Findings obtained from the chi-square test showed that there is not any significant difference between the two groups statistically in terms of demographic variables.

The mean scores in social decision making, critical thinking, and decision-making in whole samples before intervention showed no significant difference between the two groups statistically ( P  > 0.05), but showed a significant difference after the intervention ( P  < 0.05) (Table  3 ).

Scores in Table  4 showed a significant positive difference before and after intervention in the “experimental” group ( P  < 0.05), but this difference was not seen in the control group ( P  > 0.05).

Among the demographic variables, only a positive relationship was seen between marital status and decision-making skills (r = 0.72, P  < 0.05).

Also, the scores of critical thinking skill’ subgroups and social problem solving’ subgroups are presented in Tables  5 and 6 which showed a significant positive difference before and after intervention in the “experimental” group (P < 0.05), but this difference was not seen in the control group ( P  > 0.05).

In the present study conducted by some studies, problem-solving and critical thinking and decision-making scores of nursing students are moderate [ 5 , 24 , 31 ].

The results showed that problem-solving skills, critical thinking, and decision-making in nursing students were promoted through a social problem-solving training course. Unfortunately, no study has examined the effect of teaching social problem-solving skills on nursing students’ critical thinking and decision-making skills.

Altun (2018) believes that if the values of truth and human dignity are promoted in students, it will help them acquire problem-solving skills. Free discussion between students and faculty on value topics can lead to the development of students’ information processing in values. Developing self-awareness increases students’ impartiality and problem-solving ability [ 5 ]. The results of this study are consistent to the results of present study.

Erozkan (2017), in his study, reported there is a significant relationship between social problem solving and social self-efficacy and the sub-dimensions of social problem solving [ 32 ]. In the present study, social problem -solving skills training has improved problem -solving skills and its subdivisions.

The results of study by Moshirabadi (2015) showed that the mean score of total problem-solving skills was 89.52 ± 21.58 and this average was lower in fourth-year students than other students. He explained that education should improve students’ problem-solving skills. Because nursing students with advanced problem-solving skills are vital to today’s evolving society [ 22 ]. In the present study, the results showed students’ weakness in the skills in question, and holding a social problem-solving skills training course could increase the level of these skills.

Çinar (2010) reported midwives and nurses are expected to use problem-solving strategies and effective decision-making in their work, using rich basic knowledge.

These skills should be developed throughout one’s profession. The results of this study showed that academic education could increase problem-solving skills of nursing and midwifery students, and final year students have higher skill levels [ 23 ].

Bayani (2012) reported that the ability to solve social problems has a determining role in mental health. Problem-solving training can lead to a level upgrade of mental health and quality of life [ 33 ]; These results agree with the results obtained in our study.

Conducted by this study, Kocoglu (2016) reported nurses’ understanding of their problem-solving skills is moderate. Receiving advice and support from qualified nursing managers and educators can enhance this skill and positively impact their behavior [ 31 ].

Kashaninia (2015), in her study, reported teaching critical thinking skills can promote critical thinking and the application of rational decision-making styles by nurses.

One of the main components of sound performance in nursing is nurses’ ability to process information and make good decisions; these abilities themselves require critical thinking. Therefore, universities should envisage educational and supportive programs emphasizing critical thinking to cultivate their students’ professional competencies, decision-making, problem-solving, and self-efficacy [ 34 ].

The study results of Kirmizi (2015) also showed a moderate positive relationship between critical thinking and problem-solving skills [ 35 ].

Hong (2015) reported that using continuing PBL training promotes reflection and critical thinking in clinical nurses. Applying brainstorming in PBL increases the motivation to participate collaboratively and encourages teamwork. Learners become familiar with different perspectives on patients’ problems and gain a more comprehensive understanding. Achieving these competencies is the basis of clinical decision-making in nursing. The dynamic and ongoing involvement of clinical staff can bridge the gap between theory and practice [ 36 ].

Ancel (2016) emphasizes that structured and managed problem-solving training can increase students’ confidence in applying problem-solving skills and help them achieve self-confidence. He reported that nursing students want to be taught in more innovative ways than traditional teaching methods which cognitive skills training should be included in their curriculum. To this end, university faculties and lecturers should believe in the importance of strategies used in teaching and the richness of educational content offered to students [ 17 ].

The results of these recent studies are adjusted with the finding of recent research and emphasize the importance of structured teaching cognitive skills to nurses and nursing students.

Based on the results of this study on improving critical thinking and decision-making skills in the intervention group, researchers guess the reasons to achieve the results of study in the following cases:

In nursing internationally, problem-solving skills (PS) have been introduced as a key strategy for better patient care [ 17 ]. Problem-solving can be defined as a self-oriented cognitive-behavioral process used to identify or discover effective solutions to a special problem in everyday life. In particular, the application of this cognitive-behavioral methodology identifies a wide range of possible effective solutions to a particular problem and enhancement the likelihood of selecting the most effective solution from among the various options [ 27 ].

In social problem-solving theory, there is a difference among the concepts of problem-solving and solution implementation, because the concepts of these two processes are different, and in practice, they require different skills.

In the problem-solving process, we seek to find solutions to specific problems, while in the implementation of solution, the process of implementing those solutions in the real problematic situation is considered [ 25 , 26 ].

The use of D’zurilla and Goldfride’s social problem-solving model was effective in achieving the study results because of its theoretical foundations and the usage of the principles of cognitive reinforcement skills. Social problem solving is considered an intellectual, logical, effort-based, and deliberate activity [ 26 , 32 ]; therefore, using this model can also affect other skills that need recognition.

In this study, problem-solving training from case studies and group discussion methods, brainstorming, and activity in small groups, was used.

There are significant educational achievements in using small- group learning strategies. The limited number of learners in each group increases the interaction between learners, instructors, and content. In this way, the teacher will be able to predict activities and apply techniques that will lead students to achieve high cognitive taxonomy levels. That is, confront students with assignments and activities that force them to use cognitive processes such as analysis, reasoning, evaluation, and criticism.

In small groups, students are given the opportunity to the enquiry, discuss differences of opinion, and come up with solutions. This method creates a comprehensive understanding of the subject for the student [ 36 ].

According to the results, social problem solving increases the nurses’ decision-making ability and critical thinking regarding identifying the patient’s needs and choosing the best nursing procedures. According to what was discussed, the implementation of this intervention in larger groups and in different levels of education by teaching other cognitive skills and examining their impact on other cognitive skills of nursing students, in the future, is recommended.

Social problem- solving training by affecting critical thinking skills and decision-making of nursing students increases patient safety. It improves the quality of care because patients’ needs are better identified and analyzed, and the best solutions are adopted to solve the problem.

In the end, the implementation of this intervention in larger groups in different levels of education by teaching other cognitive skills and examining their impact on other cognitive skills of nursing students in the future is recommended.

Study limitations

This study was performed on fourth-year nursing students, but the students of other levels should be studied during a cohort from the beginning to the end of course to monitor the cognitive skills improvement.

The promotion of high-level cognitive skills is one of the main goals of higher education. It is very necessary to adopt appropriate approaches to improve the level of thinking. According to this study results, the teachers and planners are expected to use effective approaches and models such as D’zurilla and Goldfride social problem solving to improve problem-solving, critical thinking, and decision-making skills. What has been confirmed in this study is that the routine training in the control group should, as it should, has not been able to improve the students’ critical thinking skills, and the traditional educational system needs to be transformed and reviewed to achieve this goal.

Availability of data and materials

The datasets used and analyzed during the present study are available from the corresponding author on reasonable request.

Abbreviations

California critical thinking skills test

Social problem-solving inventory – revised

Pesudovs L. Medical/surgical nursing in the home. Aust Nurs Midwifery J. 2014;22(3):24.

PubMed   Google Scholar  

Szeri C, et al. Problem solving skills of the nursing and midwifery students and influential factors. Revista Eletrônica de Enfermagem. 2010;12(4).

Friese CR, et al. Pod nursing on a medical/surgical unit: implementation and outcomes evaluation. J Nurs Adm. 2014;44(4):207–11.

Article   Google Scholar  

Lyneham J. A conceptual model for medical-surgical nursing: moving toward an international clinical specialty. Medsurg Nurs. 2013;22(4):215–20 263.

Altun I. The perceived problem solving ability and values of student nurses and midwives. Nurse Educ Today. 2003;23(8):575–84.

Deniz Kocoglu R, et al. Problem solving training for first line nurse managers. Int J Caring Sci. 2016;9(3):955.

Google Scholar  

Mahoney C, et al. Implementing an 'arts in nursing' program on a medical-surgical unit. Medsurg Nurs. 2011;20(5):273–4.

Pardue SF. Decision-making skills and critical thinking ability among associate degree, diploma, baccalaureate, and master's-prepared nurses. J Nurs Educ. 1987;26(9):354–61.

Article   CAS   Google Scholar  

Kozlowski D, et al. The role of emotion in clinical decision making: an integrative literature review. BMC Med Educ. 2017;17(1):255.

Kuiper RA, Pesut DJ. Promoting cognitive and metacognitive reflective reasoning skills in nursing practice: self-regulated learning theory. J Adv Nurs. 2004;45(4):381–91.

Huitzi-Egilegor JX, et al. Implementation of the nursing process in a health area: models and assessment structures used. Rev Lat Am Enfermagem. 2014;22(5):772–7.

Lauri S. Development of the nursing process through action research. J Adv Nurs. 1982;7(4):301–7.

Muller-Staub M, de Graaf-Waar H, Paans W. An internationally consented standard for nursing process-clinical decision support Systems in Electronic Health Records. Comput Inform Nurs. 2016;34(11):493–502.

Neville K, Roan N. Challenges in nursing practice: nurses' perceptions in caring for hospitalized medical-surgical patients with substance abuse/dependence. J Nurs Adm. 2014;44(6):339–46.

Rabelo-Silva ER, et al. Advanced nursing process quality: comparing the international classification for nursing practice (ICNP) with the NANDA-international (NANDA-I) and nursing interventions classification (NIC). J Clin Nurs. 2017;26(3–4):379–87.

Varcoe C. Disparagement of the nursing process: the new dogma? J Adv Nurs. 1996;23(1):120–5.

Ancel G. Problem-solving training: effects on the problem-solving skills and self-efficacy of nursing students. Eurasian J Educ Res. 2016;64:231–46.

Fang J, et al. Social problem-solving in Chinese baccalaureate nursing students. J Evid Based Med. 2016;9(4):181–7.

Kanbay Y, Okanli A. The effect of critical thinking education on nursing students' problem-solving skills. Contemp Nurse. 2017;53(3):313–21.

Lau Y. Factors affecting the social problem-solving ability of baccalaureate nursing students. Nurse Educ Today. 2014;34(1):121–6.

Terzioglu F. The perceived problem-solving ability of nurse managers. J Nurs Manag. 2006;14(5):340–7.

Moshirabadi, Z., et al., The perceived problem solving skill of Iranian nursing students . 2015.

Cinar N. Problem solving skills of the nursing and midwifery students and influential factors. Revista Eletrônica de Enfermagem. 2010;12(4):601–6.

Moattari M, et al. Clinical concept mapping: does it improve discipline-based critical thinking of nursing students? Iran J Nurs Midwifery Res. 2014;19(1):70–6.

PubMed   PubMed Central   Google Scholar  

Elliott TR, Grant JS, Miller DM. Social Problem-Solving Abilities and Behavioral Health. In Chang EC, D'Zurilla TJ, Sanna LJ, editors. Social problem solving: Theory, research, and training. American Psychological Association; 2004. p. 117–33.

D'Zurilla TJ, Maydeu-Olivares A. Conceptual and methodological issues in social problem-solving assessment. Behav Ther. 1995;26(3):409–32.

Facione PA. The California Critical Thinking Skills Test--College Level. Technical Report# 1. Experimental Validation and Content Validity; 1990.

Khalili H, Zadeh MH. Investigation of reliability, validity and normality Persian version of the California Critical Thinking Skills Test; Form B (CCTST). J Med Educ. 2003;3(1).

Mokhberi A. Questionnaire, psychometrics, and standardization of indicators of social problem solving ability. Educ Measurement. 2011;1(4):1–21.

Heidari M, Shahbazi S. Effect of training problem-solving skill on decision-making and critical thinking of personnel at medical emergencies. Int J Crit Illn Inj Sci. 2016;6(4):182–7.

Kocoglu D, Duygulu S, Abaan S, Akin B. Problem Solving Training for First Line Nurse Managers. Int J Caring Sci. 2016;9(13):955–65.

Erozkan A. Analysis of social problem solving and social self-efficacy in prospective teachers. Educational Sciences: Theory and Practice. 2014;14(2):447–55.

Bayani AA, Ranjbar M, Bayani A. The study of relationship between social problem-solving and depression and social phobia among students. J Mazandaran Univ Med Sci. 2012;22(94):91–8.

Kashaninia Z, et al. The effect of teaching critical thinking skills on the decision making style of nursing managers. J Client-Centered Nurs Care. 2015;1(4):197–204.

Kirmizi FS, Saygi C, Yurdakal IH. Determine the relationship between the disposition of critical thinking and the perception about problem solving skills. Procedia Soc Behav Sci. 2015;191:657–61.

Hung CH, Lin CY. Using concept mapping to evaluate knowledge structure in problem-based learning. BMC Med Educ. 2015;15:212.

Download references

Acknowledgments

This article results from research project No. 980 approved by the Research and Technology Department of Shahrekord University of Medical Sciences. We would like to appreciate to all personnel and students of the Borujen Nursing School. The efforts of all those who assisted us throughout this research.

‘Not applicable.

Author information

Authors and affiliations.

Department of Medical Education, Virtual School of Medical Education and Management, Shahid Beheshti University of Medical Sciences, Tehran, Iran

Soleiman Ahmady

Virtual School of Medical Education and management, Shahid Beheshty University of Medical Sciences, Tehran, Iran

Sara Shahbazi

Community-Oriented Nursing Midwifery Research Center, Shahrekord University of Medical Sciences, Shahrekord, Iran

You can also search for this author in PubMed   Google Scholar

Contributions

SA and SSH conceptualized the study, developed the proposal, coordinated the project, completed initial data entry and analysis, and wrote the report. SSH conducted the statistical analyses. SA and SSH assisted in writing and editing the final report. All authors read and approved the final manuscript.

Corresponding author

Correspondence to Sara Shahbazi .

Ethics declarations

Ethics approval and consent to participate.

This study was reviewed and given exempt status by the Institutional Review Board of the research and technology department of Shahrekord University of Medical Sciences (IRB No. 08–2017-109). Before the survey, students completed a research consent form and were assured that their information would remain confidential. After the end of the study, a training course for the control group students was held.

Consent for publication

Not applicable.

Competing interests

The authors declare that they have no competing interests.

Additional information

Publisher’s note.

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Rights and permissions

Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/ . The Creative Commons Public Domain Dedication waiver ( http://creativecommons.org/publicdomain/zero/1.0/ ) applies to the data made available in this article, unless otherwise stated in a credit line to the data.

Reprints and permissions

About this article

Cite this article.

Ahmady, S., Shahbazi, S. Impact of social problem-solving training on critical thinking and decision making of nursing students. BMC Nurs 19 , 94 (2020). https://doi.org/10.1186/s12912-020-00487-x

Download citation

Received : 11 March 2020

Accepted : 29 September 2020

Published : 07 October 2020

DOI : https://doi.org/10.1186/s12912-020-00487-x

Share this article

Anyone you share the following link with will be able to read this content:

Sorry, a shareable link is not currently available for this article.

Provided by the Springer Nature SharedIt content-sharing initiative

  • Social problem solving
  • Decision making
  • Critical thinking

BMC Nursing

ISSN: 1472-6955

why is problem solving important in healthcare

  • - Google Chrome

Intended for healthcare professionals

  • Access provided by Google Indexer
  • My email alerts
  • BMA member login
  • Username * Password * Forgot your log in details? Need to activate BMA Member Log In Log in via OpenAthens Log in via your institution

Home

Search form

  • Advanced search
  • Search responses
  • Search blogs
  • News & Views
  • Critical thinking in...

Critical thinking in healthcare and education

  • Related content
  • Peer review
  • Jonathan M Sharples , professor 1 ,
  • Andrew D Oxman , research director 2 ,
  • Kamal R Mahtani , clinical lecturer 3 ,
  • Iain Chalmers , coordinator 4 ,
  • Sandy Oliver , professor 1 ,
  • Kevan Collins , chief executive 5 ,
  • Astrid Austvoll-Dahlgren , senior researcher 2 ,
  • Tammy Hoffmann , professor 6
  • 1 EPPI-Centre, UCL Department of Social Science, London, UK
  • 2 Global Health Unit, Norwegian Institute of Public Health, Oslo, Norway
  • 3 Centre for Evidence-Based Medicine, Oxford University, Oxford, UK
  • 4 James Lind Initiative, Oxford, UK
  • 5 Education Endowment Foundation, London, UK
  • 6 Centre for Research in Evidence-Based Practice, Bond University, Gold Coast, Australia
  • Correspondence to: J M Sharples Jonathan.Sharples{at}eefoundation.org.uk

Critical thinking is just one skill crucial to evidence based practice in healthcare and education, write Jonathan Sharples and colleagues , who see exciting opportunities for cross sector collaboration

Imagine you are a primary care doctor. A patient comes into your office with acute, atypical chest pain. Immediately you consider the patient’s sex and age, and you begin to think about what questions to ask and what diagnoses and diagnostic tests to consider. You will also need to think about what treatments to consider and how to communicate with the patient and potentially with the patient’s family and other healthcare providers. Some of what you do will be done reflexively, with little explicit thought, but caring for most patients also requires you to think critically about what you are going to do.

Critical thinking, the ability to think clearly and rationally about what to do or what to believe, is essential for the practice of medicine. Few doctors are likely to argue with this. Yet, until recently, the UK regulator the General Medical Council and similar bodies in North America did not mention “critical thinking” anywhere in their standards for licensing and accreditation, 1 and critical thinking is not explicitly taught or assessed in most education programmes for health professionals. 2

Moreover, although more than 2800 articles indexed by PubMed have “critical thinking” in the title or abstract, most are about nursing. We argue that it is important for clinicians and patients to learn to think critically and that the teaching and learning of these skills should be considered explicitly. Given the shared interest in critical thinking with broader education, we also highlight why healthcare and education professionals and researchers need to work together to enable people to think critically about the health choices they make throughout life.

Essential skills for doctors and patients

Critical thinking is not a new concept in education: at the beginning of the last century the US educational reformer John Dewey identified the need to help students “to think well.” 3 Critical thinking encompasses a broad set of skills and dispositions, including cognitive skills (such as analysis, inference, and self regulation); approaches to specific questions or problems (orderliness, diligence, and reasonableness); and approaches to life in general (inquisitiveness, concern with being well informed, and open mindedness). 4

An increasing body of evidence highlights that developing critical thinking skills can benefit academic outcomes as well as wider reasoning and problem solving capabilities. 5 For example, the Thinking, Doing, Talking Science programme trains teachers in a repertoire of strategies that encourage pupils to use critical thinking skills in primary school science lessons. An independently conducted randomised trial of this approach found that it had a positive impact on pupils’ science attainment, with signs that it was particularly beneficial for pupils from poorer families. 6

In medicine, increasing attention has been paid to “critical appraisal” in the past 40 years. Critical appraisal is a subset of critical thinking that focuses on how to use research evidence to inform health decisions. 7 8 9 The need for critical appraisal in medicine was recognised at least 75 years ago, 10 and critical appraisal has been recognised for some decades as an essential competency for healthcare professionals. 11 The General Medical Council’s Good Medical Practice guidance includes the need for doctors to be able to “provide effective treatments based on the best available evidence.” 12

If patients and the public are to make well informed health choices, they must also be able to assess the reliability of health claims and information. This is something that most people struggle to do, and it is becoming increasingly important because patients are taking on a bigger role in managing their health and making healthcare decisions, 13 while needing to cope with more and more health information, much of which is not reliable. 14 15 16 17

Teaching critical thinking

Although critical thinking skills are given limited explicit attention in standards for medical education, they are included as a key competency in most frameworks for national curriculums for primary and secondary schools in many countries. 18 Nonetheless, much health and science education, and education generally, still tends towards rote learning rather than the promotion of critical thinking. 19 20 This matters because the ability to think critically is an essential life skill relevant to decision making in many circumstances. The capacity to think critically is, like a lot of learning, developed in school and the home: parental influence creates advantage for pupils who live in homes where they are encouraged to think and talk about what they are doing. This, importantly, goes beyond simply completing tasks to creating deeper understanding of learning processes. As such, the “critical thinking gap” between children from disadvantaged communities and their more advantaged peers requires attention as early as possible.

Although it is possible to teach critical thinking to adults, it is likely to be more productive if the grounds for this have been laid down in an educational environment early in life, starting in primary school. Erroneous beliefs, attitudes, and behaviours developed during childhood may be difficult to change later. 21 22 This also applies to medical education and to health professionals. It becomes increasingly difficult to teach these skills without a foundation to build on and adequate time to learn them.

Strategies for teaching students to think critically have been evaluated in health and medical education; in science, technology, engineering, and maths; and in other subjects. 23 These studies suggest that critical thinking skills can be taught and that in the absence of explicit teaching of critical thinking, important deficiencies emerge in the abilities of students to make sound judgments. In healthcare studies, many medical students score poorly on tests that measure the ability to think critically , and the ability to think critically is correlated with academic success. 24 25

Evaluations of strategies for teaching critical thinking in medicine have focused primarily on critical appraisal skills as part of evidence based healthcare. An overview of systematic reviews of these studies suggests that improving evidence based healthcare competencies is likely to require multifaceted, clinically integrated approaches that include assessment. 26

Cross sector collaboration

Informed Health Choices, an international project aiming to improve decision making, shows the opportunities and benefits of cross sector collaboration between education and health. 27 This project has brought together people working in education and healthcare to develop a curriculum and learning resources for critical thinking about any action that is claimed to improve health. It aims to develop, identify, and promote the use of effective learning resources, beginning at primary school, to help people to make well informed choices as patients and health professionals, and well informed decisions as citizens and policy makers.

The project has drawn on several approaches used in education, including the development of a “spiral curriculum,” measurement tools, and the design of learning resources. A spiral curriculum begins with determining what people should know and be able to do, and outlines where they should begin and how they should progress to reach these goals. The basic ideas are revisited repeatedly, building on them until the student has grasped a deep understanding of the concepts. 28 29 The project has also drawn on educational research and methods to develop reliable and valid tools for measuring the extent to which those goals have been achieved. 30 31 32 The development of learning resources to teach these skills has been informed by educational research, including educational psychology, motivational psychology, and research and methods for developing learning games. 33 34 35 It has also built on the traditions of clinical epidemiology and evidence based medicine to identify the key concepts required to assess health claims. 29

It is difficult to teach critical thinking abstractly, so focusing on health may have advantages beyond the public health benefits of increasing health literacy. 36 Nearly everyone is interested in health, including children, making it easy to engage learners. It is also immediately relevant to students. As reported by one 10 year old in a school that piloted primary school resources, this is about “things we might actually use instead of things we might use when we are all grown up and by then we’ll forget.” Although the current evaluation of the project is focusing on outcomes relating to appraisal of treatment claims, if the intervention shows promise the next step could be to explore how these skills translate to wider educational contexts and outcomes.

Beyond critical thinking

Exciting opportunities for cross sector collaboration are emerging between healthcare and education. Although critical thinking is a useful example of this, other themes cross the education and healthcare domains, including nutrition, exercise, educational neuroscience, learning disabilities and special education needs, and mental health.

In addition to shared topics, several common methodological and conceptual issues also provide opportunities for sharing ideas and innovations and learning from mistakes and successes. For example, the Education Endowment Foundation is the UK government’s What Works Centre for education, aiming to improve evidence based decision making. Discussions hosted by the foundation are exploring how methods to develop guidelines in healthcare can be adapted and applied in education and other sectors.

Similarly, the foundation’s universal use of independent evaluation for teaching and learning interventions is an approach that should be explored, adapted, and applied in healthcare. Since the development and evaluation of educational interventions are separated, evaluators have no vested interested in the results of the assessment, all results are published, and bias and spin in how results are analysed and presented are reduced. By contrast, industry sponsorship of drug and device studies consistently produces results that favour the manufacturer. 37

Another example of joint working between educators and health is the Best Evidence Medical Education Collaboration, an international collaboration focused on improving education of health professionals. 38 And in the UK, the Centre for Evidence Based Medicine coordinates Evidence in School Teaching (Einstein), a project that supports introducing evidence based medicine as part of wider science activities in schools. 39 It aims to engage students, teachers, and the public in evidence based medicine and develop critical thinking to assess health claims and make better choices.

Collaboration has also been important in the development of the Critical Thinking and Appraisal Resource Library (CARL), 40 a set of resources designed to help people understand fair comparisons of treatments. An important aim of CARL is to promote evaluation of these critical thinking resources and interventions, some of which are currently under way at the Education Endowment Foundation. On 22 May 2017, the foundation is also cohosting an event with the Royal College of Paediatrics and Child Health that will focus on their shared interest in critical thinking and appraisal skills.

Education and healthcare have overlapping interests. Doctors, teachers, researchers, patients, learners, and the public can all benefit from working together to help people to think critically about the choices they make. Events such as the global evidence summit in September 2017 ( https://globalevidencesummit.org ) can help bring people together and build on current international experience.

Contributors and sources: This article reflects conclusions from discussions during 2016 among education and health service researchers exploring opportunities for cross sector collaboration and learning. This group includes people with a longstanding interest in evidence informed policy and practice, with expertise in evaluation design, reviewing methodology, knowledge mobilisation, and critical thinking and appraisal.

Competing interests: We have read and understood BMJ policy on declaration of interests and declare that we have no competing interests.

Provenance and peer review: Not commissioned; externally peer reviewed.

  • ↵ Krupat E, Sprague JM, Wolpaw D, Haidet P, Hatem D, O’Brien B. Thinking critically about critical thinking: ability, disposition or both? Med Educ 2011 ; 357 : 625 - 35 . doi:10.1111/j.1365-2923.2010.03910.x   pmid:21564200 . OpenUrl
  • ↵ Huang GC, Newman LR, Schwartzstein RM. Critical thinking in health professions education: summary and consensus statements of the millennium conference 2011. Teach Learn Med 2014 ; 357 : 95 - 102 . doi:10.1080/10401334.2013.857335   pmid:24405353 . OpenUrl
  • ↵ Dewey J. How we think. D C Heath, 1910 . https://archive.org/details/howwethink000838mbp doi:10.1037/10903-000 .
  • ↵ Facione PA. Critical thinking: a statement of expert consensus for purposes of educational assessment and instruction. Research findings and recommendations. American Philosophical Association, 1990 , http://files.eric.ed.gov/fulltext/ED315423.pdf .
  • ↵ Higgins S, Katsipataki M, Coleman R, et al. The Sutton Trust-Education Endowment Foundation Teaching and Learning Toolkit. Education Endowment Foundation, 2015 .
  • ↵ Hanley P, Slavin RE, Elliot L. Thinking, doing, talking science. Evaluation report and executive summary. Education Endowment Foundation, 2015 , https://v1.educationendowmentfoundation.org.uk/uploads/pdf/Oxford_Science.pdf .
  • ↵ Sackett DL. How to read clinical journals: I. why to read them and how to start reading them critically . Can Med Assoc J 1981 ; 357 : 555 - 8 . pmid:7471000 . OpenUrl
  • ↵ Guyatt G, Cairns J, Churchill D, et al. Evidence-Based Medicine Working Group. Evidence-based medicine. A new approach to teaching the practice of medicine . JAMA 1992 ; 357 : 2420 - 5 . doi:10.1001/jama.1992.03490170092032   pmid:1404801 . OpenUrl
  • ↵ Oxman AD, Sackett DL, Guyatt GH. The Evidence-Based Medicine Working Group. Users’ guides to the medical literature. I. How to get started . JAMA 1993 ; 357 : 2093 - 5 . doi:10.1001/jama.1993.03510170083036   pmid:8411577 . OpenUrl
  • ↵ Rynearson EH. Endocrinology: a critical appraisal . Cal West Med 1940 ; 357 : 257 - 9 . pmid:18745588 . OpenUrl
  • ↵ General Medical Council. Tomorrow's doctors. General Medical Council, 1993. http://www.gmc-uk.org/10a_annex_a.pdf_25398162.pdf
  • ↵ General Medical Council. Good medical practice. General Medical Council, 2013. http://www.gmc-uk.org/static/documents/content/GMP_.pdf
  • ↵ Edwards A, Elwyn G. Shared decision-making in health care: achieving evidence-based patient choice. 2nd ed . Oxford University Press, 2009 .
  • ↵ Sumner P, Vivian-Griffiths S, Boivin J, et al. Exaggerations and caveats in press releases and health-related science news. PLoS One 2016 ; 357 : e0168217 . doi:10.1371/journal.pone.0168217   pmid:27978540 . OpenUrl
  • ↵ Schwartz LM, Woloshin S, Andrews A, Stukel TA. Influence of medical journal press releases on the quality of associated newspaper coverage: retrospective cohort study. BMJ 2012 ; 357 : d8164 . doi:10.1136/bmj.d8164 .  pmid:22286507 . OpenUrl
  • ↵ Glenton C, Paulsen EJ, Oxman AD. Portals to Wonderland: health portals lead to confusing information about the effects of health care. BMC Med Inform Decis Mak 2005 ; 357 : 7 . doi:10.1186/1472-6947-5-7   pmid:15769291 . OpenUrl
  • ↵ Moynihan R, Bero L, Ross-Degnan D, et al. Coverage by the news media of the benefits and risks of medications . N Engl J Med 2000 ; 357 : 1645 - 50 . doi:10.1056/NEJM200006013422206   pmid:10833211 . OpenUrl
  • ↵ Voogt J, Roblin NP. A comparative analysis of international frameworks for 21st century competences: implications for national curriculum policies. J Curric Stud 2012 ; 357 : 299 - 321 doi:10.1080/00220272.2012.668938 . OpenUrl
  • ↵  National Research Council. Taking science to school: learning and teaching science in grades K-8. National Academies Press, 2007 .
  • ↵ Nordheim L, Pettersen KS, Flottorp S, Hjälmhult E. Critical appraisal of health claims: science teachers’ perceptions and practices . Health Educ J 2016 ; 357 : 449 - 66 doi:10.1108/HE-04-2015-0016 . OpenUrl
  • ↵  Committee on Science Learning. Kindergarten through eighth grade. How children learn science. In: Duschl RA, Schweingruber A, Shouse AW, eds. Taking science to school: learning and teaching science in grades K-8. National Academies Press, 2007 .
  • ↵ Vosniadou S. International handbook of research on conceptual change. 2nd ed . Routledge, 2013 .
  • ↵ Abrami PC, Bernard RM, Borokhovski E, Waddington DI, Wade CA, Persson T. Strategies for teaching students to think critically a meta-analysis. Rev Educ Res 2015 ; 357 : 275 - 314 . OpenUrl
  • ↵ Ross D, Schipper S, Westbury C, et al. Examining critical thinking skills in family medicine residents . Fam Med 2016 ; 357 : 121 - 6 . pmid:26950783 . OpenUrl
  • ↵ Ross D, Loeffler K, Schipper S, Vandermeer B, Allan GM. Do scores on three commonly used measures of critical thinking correlate with academic success of health professions trainees? A systematic review and meta-analysis. Acad Med 2013 ; 357 : 724 - 34 . doi:10.1097/ACM.0b013e31828b0823   pmid:23524925 . OpenUrl
  • ↵ Young T, Rohwer A, Volmink J, Clarke M. What are the effects of teaching evidence-based health care (EBHC)? Overview of systematic reviews. PLoS One 2014 ; 357 : e86706 . doi:10.1371/journal.pone.0086706   pmid:24489771 . OpenUrl
  • ↵ Informed Health Choices Group. Informed health choices. www.informedhealthchoices.org
  • ↵ Harden RM, Stamper N. What is a spiral curriculum? Med Teach 1999 ; 357 : 141 - 3 . doi:10.1080/01421599979752   pmid:21275727 . OpenUrl
  • ↵ Austvoll-Dahlgren A, Oxman AD, Chalmers I, et al. Key concepts that people need to understand to assess claims about treatment effects. J Evid Based Med 2015 ; 357 : 112 - 25 . doi:10.1111/jebm.12160   pmid:26107552 . OpenUrl
  • ↵ Austvoll-Dahlgren A, Nsangi A, Semakula D. Interventions and assessment tools addressing key concepts people need to know to appraise claims about treatment effects: a systematic mapping review. Syst Rev 2016 ; 357 : 215 . doi:10.1186/s13643-016-0389-z   pmid:28034307 . OpenUrl
  • ↵ Austvoll-Dahlgren A, Semakula D, Nsangi A, et al. The development of the “claim evaluation tools”: assessing critical thinking about effects. BMJ Open forthcoming .
  • ↵ Austvoll-Dahlgren A, Guttersrud Ø, Semakula D, Nsangi A, Oxman AD. Measuring ability to assess claims about treatment effects: a latent trait analysis of the claim evaluation tools using Rasch modelling. BMJ Open [ forthcoming ].
  • ↵ Sandoval WA, Sodian B, Koerber S, Wong J. Developing children’s early competencies to engage with science . Educ Psychol 2014 ; 357 : 139 - 52 doi:10.1080/00461520.2014.917589 . OpenUrl
  • ↵ Pintrich PR. A motivational science perspective on the role of student motivation in learning and teaching contexts . J Educ Psychol 2003 ; 357 : 667 - 86 doi:10.1037/0022-0663.95.4.667 . OpenUrl
  • ↵ Clark DB, Tanner-Smith EE, Killingsworth SS. Digital games, design, and learning: a systematic review and meta-analysis . Rev Educ Res 2016 ; 357 : 79 - 122 . doi:10.3102/0034654315582065   pmid:26937054 . OpenUrl
  • ↵ Berkman ND, Sheridan SL, Donahue KE, Halpern DJ, Crotty K. Low health literacy and health outcomes: an updated systematic review . Ann Intern Med 2011 ; 357 : 97 - 107 . doi:10.7326/0003-4819-155-2-201107190-00005   pmid:21768583 . OpenUrl
  • ↵ Lundh A, Sismondo S, Lexchin J, Busuioc OA, Bero L. Industry sponsorship and research outcome. Cochrane Database Syst Rev 2012 ; 357 : MR000033 . pmid:23235689 . OpenUrl
  • ↵ Thistlethwaite J, Hammick M, The Best Evidence Medical Education (BEME) Collaboration: into the next decade. Med Teach 2010 ; 357 : 880 - 2 . doi:10.3109/0142159X.2010.519068   pmid:21039096 . OpenUrl
  • ↵ Centre for Evidence Based Medicine. Einstein—taking EBM to schools. http://www.cebm.net/taking-ebm-schools
  • ↵ Castle JC, Chalmers I, Atkinson P, et al. Establishing a library of resources to help people understand key concepts in assessing treatment claims—the Critical Thinking and Appraisal Resource Library (CARL). PLoS One forthcoming .

why is problem solving important in healthcare

You are using an outdated browser

Unfortunately Ausmed.com does not support your browser. Please upgrade your browser to continue.

Cultivating Critical Thinking in Healthcare

Published: 06 January 2019

why is problem solving important in healthcare

Critical thinking skills have been linked to improved patient outcomes, better quality patient care and improved safety outcomes in healthcare (Jacob et al. 2017).

Given this, it's necessary for educators in healthcare to stimulate and lead further dialogue about how these skills are taught , assessed and integrated into the design and development of staff and nurse education and training programs (Papp et al. 2014).

So, what exactly is critical thinking and how can healthcare educators cultivate it amongst their staff?

What is Critical Thinking?

In general terms, ‘ critical thinking ’ is often used, and perhaps confused, with problem-solving and clinical decision-making skills .

In practice, however, problem-solving tends to focus on the identification and resolution of a problem, whilst critical thinking goes beyond this to incorporate asking skilled questions and critiquing solutions .

Several formal definitions of critical thinking can be found in literature, but in the view of Kahlke and Eva (2018), most of these definitions have limitations. That said, Papp et al. (2014) offer a useful starting point, suggesting that critical thinking is:

‘The ability to apply higher order cognitive skills and the disposition to be deliberate about thinking that leads to action that is logical and appropriate.’

The Foundation for Critical Thinking (2017) expands on this and suggests that:

‘Critical thinking is that mode of thinking, about any subject, content, or problem, in which the thinker improves the quality of his or her thinking by skillfully analysing, assessing, and reconstructing it.’

They go on to suggest that critical thinking is:

  • Self-directed
  • Self-disciplined
  • Self-monitored
  • Self-corrective.

Critical Thinking in Healthcare nurses having discussion

Key Qualities and Characteristics of a Critical Thinker

Given that critical thinking is a process that encompasses conceptualisation , application , analysis , synthesis , evaluation and reflection , what qualities should be expected from a critical thinker?

In answering this question, Fortepiani (2018) suggests that critical thinkers should be able to:

  • Formulate clear and precise questions
  • Gather, assess and interpret relevant information
  • Reach relevant well-reasoned conclusions and solutions
  • Think open-mindedly, recognising their own assumptions
  • Communicate effectively with others on solutions to complex problems.

All of these qualities are important, however, good communication skills are generally considered to be the bedrock of critical thinking. Why? Because they help to create a dialogue that invites questions, reflections and an open-minded approach, as well as generating a positive learning environment needed to support all forms of communication.

Lippincott Solutions (2018) outlines a broad spectrum of characteristics attributed to strong critical thinkers. They include:

  • Inquisitiveness with regard to a wide range of issues
  • A concern to become and remain well-informed
  • Alertness to opportunities to use critical thinking
  • Self-confidence in one’s own abilities to reason
  • Open mindedness regarding divergent world views
  • Flexibility in considering alternatives and opinions
  • Understanding the opinions of other people
  • Fair-mindedness in appraising reasoning
  • Honesty in facing one’s own biases, prejudices, stereotypes or egocentric tendencies
  • A willingness to reconsider and revise views where honest reflection suggests that change is warranted.

Papp et al. (2014) also helpfully suggest that the following five milestones can be used as a guide to help develop competency in critical thinking:

Stage 1: Unreflective Thinker

At this stage, the unreflective thinker can’t examine their own actions and cognitive processes and is unaware of different approaches to thinking.

Stage 2: Beginning Critical Thinker

Here, the learner begins to think critically and starts to recognise cognitive differences in other people. However, external motivation  is needed to sustain reflection on the learners’ own thought processes.

Stage 3: Practicing Critical Thinker

By now, the learner is familiar with their own thinking processes and makes a conscious effort to practice critical thinking.

Stage 4: Advanced Critical Thinker

As an advanced critical thinker, the learner is able to identify different cognitive processes and consciously uses critical thinking skills.

Stage 5: Accomplished Critical Thinker

At this stage, the skilled critical thinker can take charge of their thinking and habitually monitors, revises and rethinks approaches for continual improvement of their cognitive strategies.

Facilitating Critical Thinking in Healthcare

A common challenge for many educators and facilitators in healthcare is encouraging students to move away from passive learning towards active learning situations that require critical thinking skills.

Just as there are similarities among the definitions of critical thinking across subject areas and levels, there are also several generally recognised hallmarks of teaching for critical thinking . These include:

  • Promoting interaction among students as they learn
  • Asking open ended questions that do not assume one right answer
  • Allowing sufficient time to reflect on the questions asked or problems posed
  • Teaching for transfer - helping learners to see how a newly acquired skill can apply to other situations and experiences.

(Lippincott Solutions 2018)

Snyder and Snyder (2008) also make the point that it’s helpful for educators and facilitators to be aware of any initial resistance that learners may have and try to guide them through the process. They should aim to create a learning environment where learners can feel comfortable thinking through an answer rather than simply having an answer given to them.

Examples include using peer coaching techniques , mentoring or preceptorship to engage students in active learning and critical thinking skills, or integrating project-based learning activities that require students to apply their knowledge in a realistic healthcare environment.

Carvalhoa et al. (2017) also advocate problem-based learning as a widely used and successful way of stimulating critical thinking skills in the learner. This view is echoed by Tsui-Mei (2015), who notes that critical thinking, systematic analysis and curiosity significantly improve after practice-based learning .

Integrating Critical Thinking Skills Into Curriculum Design

Most educators agree that critical thinking can’t easily be developed if the program curriculum is not designed to support it. This means that a deep understanding of the nature and value of critical thinking skills needs to be present from the outset of the curriculum design process , and not just bolted on as an afterthought.

In the view of Fortepiani (2018), critical thinking skills can be summarised by the statement that 'thinking is driven by questions', which means that teaching materials need to be designed in such a way as to encourage students to expand their learning by asking questions that generate further questions and stimulate the thinking process. Ideal questions are those that:

  • Embrace complexity
  • Challenge assumptions and points of view
  • Question the source of information
  • Explore variable interpretations and potential implications of information.

To put it another way, asking questions with limiting, thought-stopping answers inhibits the development of critical thinking. This means that educators must ideally be critical thinkers themselves .

Drawing these threads together, The Foundation for Critical Thinking (2017) offers us a simple reminder that even though it’s human nature to be ‘thinking’ most of the time, most thoughts, if not guided and structured, tend to be biased, distorted, partial, uninformed or even prejudiced.

They also note that the quality of work depends precisely on the quality of the practitioners’ thought processes. Given that practitioners are being asked to meet the challenge of ever more complex care, the importance of cultivating critical thinking skills, alongside advanced problem-solving skills , seems to be taking on new importance.

Additional Resources

  • The Emotionally Intelligent Nurse | Ausmed Article
  • Refining Competency-Based Assessment | Ausmed Article
  • Socratic Questioning in Healthcare | Ausmed Article
  • Carvalhoa, D P S R P et al. 2017, 'Strategies Used for the Promotion of Critical Thinking in Nursing Undergraduate Education: A Systematic Review', Nurse Education Today , vol. 57, pp. 103-10, viewed 7 December 2018, https://www.sciencedirect.com/science/article/abs/pii/S0260691717301715
  • Fortepiani, L A 2017, 'Critical Thinking or Traditional Teaching For Health Professionals', PECOP Blog , 16 January, viewed 7 December 2018, https://blog.lifescitrc.org/pecop/2017/01/16/critical-thinking-or-traditional-teaching-for-health-professions/
  • Jacob, E, Duffield, C & Jacob, D 2017, 'A Protocol For the Development of a Critical Thinking Assessment Tool for Nurses Using a Delphi Technique', Journal of Advanced Nursing, vol. 73, no. 8, pp. 1982-1988, viewed 7 December 2018, https://onlinelibrary.wiley.com/doi/10.1111/jan.13306
  • Kahlke, R & Eva, K 2018, 'Constructing Critical Thinking in Health Professional Education', Perspectives on Medical Education , vol. 7, no. 3, pp. 156-165, viewed 7 December 2018, https://link.springer.com/article/10.1007/s40037-018-0415-z
  • Lippincott Solutions 2018, 'Turning New Nurses Into Critical Thinkers', Lippincott Solutions , viewed 10 December 2018, https://www.wolterskluwer.com/en/expert-insights/turning-new-nurses-into-critical-thinkers
  • Papp, K K 2014, 'Milestones of Critical Thinking: A Developmental Model for Medicine and Nursing', Academic Medicine , vol. 89, no. 5, pp. 715-720, https://journals.lww.com/academicmedicine/Fulltext/2014/05000/Milestones_of_Critical_Thinking___A_Developmental.14.aspx
  • Snyder, L G & Snyder, M J 2008, 'Teaching Critical Thinking and Problem Solving Skills', The Delta Pi Epsilon Journal , vol. L, no. 2, pp. 90-99, viewed 7 December 2018, https://dme.childrenshospital.org/wp-content/uploads/2019/02/Optional-_Teaching-Critical-Thinking-and-Problem-Solving-Skills.pdf
  • The Foundation for Critical Thinking 2017, Defining Critical Thinking , The Foundation for Critical Thinking, viewed 7 December 2018, https://www.criticalthinking.org/pages/our-conception-of-critical-thinking/411
  • Tsui-Mei, H, Lee-Chun, H & Chen-Ju MSN, K 2015, 'How Mental Health Nurses Improve Their Critical Thinking Through Problem-Based Learning', Journal for Nurses in Professional Development , vol. 31, no. 3, pp. 170-175, viewed 7 December 2018, https://journals.lww.com/jnsdonline/Abstract/2015/05000/How_Mental_Health_Nurses_Improve_Their_Critical.8.aspx

educator profile image

Anne Watkins View profile

Help and feedback, publications.

Ausmed Education is a Trusted Information Partner of Healthdirect Australia. Verify here .

  • Login / Register

why is problem solving important in healthcare

‘Let’s hear it for the midwives and everything they do’

STEVE FORD, EDITOR

  • You are here: Archive

Thinking your way to successful problem-solving

13 September, 2001 By NT Contributor

VOL: 97, ISSUE: 37, PAGE NO: 36

Jacqueline Wheeler, DMS, MSc, RGN, is a lecturer at Buckinghamshire Chilterns University College

Problems - some people like them, some do not think they have any, while others shy away from them as if they were the plague. Opportunities, in the form of problems, are part of your life.

The most difficult decision is deciding to tackle a problem and implement a solution, especially as it is sometimes easier to ignore its existence. Problem-solving takes time and effort, but once a problem has been addressed the nurse can feel satisfied that the issue has been resolved and is therefore less likely to re-emerge.

Nurses make clinical decisions using two different approaches. The first is the rationalist approach, which involves an analysis of a situation so that subsequent actions are rational, logical and based on knowledge and judgement. The second approach is based on a phenomenological perspective, where a fluid, flexible and dynamic approach to decision-making is required, such as when dealing with an acutely ill patient.

Types of problems

Problems come in different guises and the solver can perceive them either as a challenge or a threat. One of the most common types of problem is when the unexpected happens. As a nurse you plan and implement care for a patient based on your knowledge and experience, only to find that the patient’s reaction is totally different from that expected but without any apparent reason.

Another type of problem is an assignment where others set a goal or task. Throughout your working life you will be required to undertake duties on behalf of other people. For some this is difficult as they feel unable to control their workload. Others see it as an opportunity to develop new skills or take on additional responsibilities. Opportunities can be perceived as problems by those who fear failure.

A third type of problem is when a dilemma arises. This is when it is difficult to choose the best solution to a problem because the nurse is confronted with something that challenges his or her personal and/or professional values.

Diagnosing problems

The sooner a problem is identified and solutions devised, the better for all involved. So try to anticipate or identify problems when they occur through continuously monitoring staff performance and patient outcomes.

Listening to and observing junior staff will help you to detect work or organisational concerns, because when there are problems staff are likely to behave in an unusual or inconsistent manner.

Initial analysis

Remember that people view things differently, so what you perceive as a problem may not be one to anyone else. So before you begin thinking about what to do - whether to keep it under surveillance, contain it or find a solution - you should undertake an initial analysis. This will help you to understand the problem more clearly.

An analysis will also enable you to prioritise its importance in relation to other problems as problems do not occur one at a time.

Routine problems often need little clarification, so an initial analysis is recommended for non-routine problems only. Even then, not all problems justify the same degree of analysis. But where it is appropriate, an initial analysis will provide a basis from which to generate solutions.

Perception is also important when dealing with patients’ problems. For example, if a patient gives up reading because he or she cannot hold the book (objective), the nurse may assume it is because the patient has lost interest (subjective, one’s own view).

Generating solutions

It is essential for the problem-solver to remember that, where possible, solutions must come from those connected with the problem. If it is to be resolved, agreement must be owned by those involved as they are probably the best and only people who can resolve their differences. The manager should never feel that he or she must be on hand to deal with all disputes.

To solve a problem you need to generate solutions. However, the obvious solution may not necessarily be the best. To generate solutions, a mixture of creative and analytical thinking is needed (Bransford, 1993).

Creativity is about escaping from preconceived ideas that block the way to finding an innovative solution to a problem. An effective tool for assisting in this process is the technique of lateral thinking, which is based largely on the work of Edward de Bono, who regards thinking as a skill.

There are several ways to encourage creative decision-making. One method that works best for specific or simple problems is brainstorming. If the ground rules of confidentiality and being non-judgemental are applied, it will produce a free flow of ideas generated without fear of criticism (Rawlinson, 1986).

Time constraints and staff availability may make it difficult for all those involved in a problem to meet. In such cases an adaptation of brainstorming - where a blank piece of paper is given to those involved and each writes down four solutions to the problem - may be the answer. A similar technique is the collective notebook, where people are asked to record their thoughts and ideas about a problem for a specified period.

An alternative is where one person writes down a list of solutions in order of priority, which is then added to by others. This helps to prioritise the ideas generated. All these methods produce data that can then be analysed by the problem-solver.

When the problem affects people in different geographical areas, solutions can be generated by obtaining the opinion of experts through the use of a questionnaire, which is known as the Delphi technique (McKenna, 1994).

When an apparently insurmountable problem presents itself, it is often useful to divide it into smaller pieces. This is known as convergent thinking. Using divergent thinking - where you consider a problem in different ways to expand your view - may also help. 

A final alternative is the stepladder technique, which is time-consuming but effective if the issue is stirring up strong feelings. This requires the people involved in the problem to be organised into groups. First, two people try to solve the problem, then a third member is drawn in, to whom the solution reached by the first two is presented. All three then try to agree a solution. More people are added to the group, if necessary, in a similar way, until there is agreement of all involved. Provided the individuals are motivated to solve the problem, this technique creates ownership and commitment to implementing the agreed solution.

Analytical thinking, which follows a logical process of eliminating ideas, will enable you to narrow the range down to one feasible solution.

Although someone has to make the ultimate decision on which solution to implement, there are advantages to group decision-making: a greater number of possible solutions are generated and conflicts are resolved, resulting in decisions being reached through rational discussion.

This does, however, require the group to be functioning well or the individuals involved may feel inhibited in contributing to the decision-making. One individual may dominate the group or competition between individuals may result in the need to win taking precedence over deciding on an agreed practical solution.

As nursing becomes less bureaucratic individuals are being encouraged to put forward their own ideas, but social pressures to conform may inhibit the group. We do not solve problems and make decisions in isolation, but are influenced by the environment in which we work and the role we fulfil in that environment. If group members lack commitment and/or motivation, they may accept the first solution and pay little attention to other solutions offered.

Making a decision

There are three types of decision-making environments: certain, risk and uncertain. The certain environment, where we have sufficient information to allow us to select the best solution, is the most comfortable within which to make a decision, but it is the least often encountered.

We usually encounter the risk environment, where we lack complete certainty about the outcomes of various courses of action.

Finally, the uncertain environment is the least comfortable within which to make decisions as we are almost forced to do this blind. We are unable to forecast the possible outcomes of alternative courses of action and, therefore, have to rely heavily on creative intuition and the educated guess.

Taking this into consideration, you should not contemplate making a decision until you have all the information needed. Before you make your decision, remind yourself of the objective, reassess the priorities, consider the options and weigh up the strengths, weaknesses, opportunities and threats of each solution.

An alternative is to use the method that Thomas Edison used to solve the problem of the electric light bulb. Simply focus on your problem as you drift off to sleep, and when you wake up your subconscious mind will have presented you with the answer. But bear in mind that this is not a scientific way of solving problems - your subconscious can be unreliable.

If you are not sure about your decision, test the solution out on others who do not own the problem but may have encountered a similar dilemma. Once you have made your choice stick to it, or you may find it difficult to implement because those involved will never be sure which solution is current. They will also be reluctant to become involved in any future decision-making because of your uncertainty.

The next step is to ensure that all the people involved know what decision has been made. Where possible, brief the group and follow this up with written communication to ensure everyone knows what is expected of them. You may need to sell the decision to some, especially if they were not involved in the decision-making process or the solution chosen is not theirs.

Implementing the solution

Finally, to ensure the solution is implemented, check that the people involved know who is to do what, by when and that it has happened. Review the results of implementing your solution (see Box) and praise and thank all those involved.

- Part 1 of this series was published in last week’s issue: Wheeler, J. (2001) How to delegate your way to a better working life. Nursing Times; 97: 36, 34-35.

Next week. Part three: a step-by-step guide to effective report writing.

  • Add to Bookmarks

Have your say

Sign in or Register a new account to join the discussion.

The George Washington University School of Business Logo

  • Admission Requirements
  • Student Outcomes
  • Student Support

6 Management Skills that are Important for Success in Health Care

March 6, 2019

View all blog posts under Articles | View all blog posts under Online Healthcare MBA

6 Management Skills that are Important for Success in Health Care

Strong leadership is essential for ensuring the success of any healthcare facility. Whether you’re running a hospital or your own private practice, these management skills are essential.

1. Change Management Skills for the Evolving Healthcare Landscape

The healthcare landscape is evolving from a sector focused on the volume of patients to one centered around quality patient care. According to Chris Van Gorder, the chief executive officer of Scripps Health, healthcare managers must have change management skills to adapt to this industry shift. These vital skills will help them manage the need for change in workplace processes and cultures, and communicate this need to healthcare employees at all levels.

2. Understanding of Legalities for Policy Implementation

Legal knowledge might not seem like an obvious requirement for a healthcare manager, but it’s essential for operating in the modern medical environment. According to the Bureau of Labor Statistics, medical and health services managers must adapt to any changes in healthcare regulations and laws. This requires a clear understanding of new policies and rules for their implementation.

3. Analytical Skills Help Make Healthcare Facilities Better

For true success, it’s not enough for a manager to keep up the status quo. Successful managers look to the future, putting their analytical skills to work to assess current operations and find areas for improvement. A Healthcare MBA program  can help develop analytical skills through specialized electives like healthcare quality analysis; this knowledge can in turn help healthcare managers apply common quality tools, like cause-effect diagrams and Pareto charts, to the healthcare environment.

4. Problem-Solving Skills Help Managers Overcome Obstacles

No matter what the size of their organization, healthcare managers call on their problem-solving skills every day. These talents come in handy when settling staff disputes, handling a healthcare crisis, and balancing the budget.

Healthcare managers also rely on their problem-solving skills after identifying areas of weakness within their organizations. After using analytical skills to assess company processes and procedures, it takes problem-solving know-how to correct and improve the facility.

Problem-solving is a skill with many facets, including remaining objective, engaging creativity, and calling on the right open-minded people for support. Practicing all of these can help healthcare managers become expert problem solvers.

5. Aptitude for Co-Managing in Contemporary Healthcare Facilities

Modern healthcare managers don’t just need to call on the right people for problem-solving. Co-managing has become a key part of the contemporary healthcare landscape. Healthcare environments are collaborative, even in the world of private practice. Successful managers must be open to sharing responsibility with other key personnel, including clinical leaders and front-line employees.

6. Technology Skills Help Managers Navigate Modern Workplaces

Technology skills are becoming increasingly important for managers working in health care. Most hospitals and healthcare facilities use electronic health records, along with specialized coding and billing software. Mobile healthcare programs are also on the rise. As technology advances, healthcare managers will need to keep pace with the latest initiatives.

Managing a healthcare facility brings a set of unique challenges, but these skills along with an  MBA in healthcare  will help you and your organization succeed.

Recommended Reading

Foundational Management Topics in Healthcare: Disruption in the Health Care Domain

A Look at MBA Healthcare Management Jobs

George Washington University Healthcare MBA Program

http://www.monster.com/healthcare/a/Top-5-Skills-and-Qualifications-for-Health-Services-Administration http://www.theatlantic.com/sponsored/cvs-innovation-care/mhealth-movement-mobile-apps-and-rise-portable-care/97/ Medical and Health Services Managers 8 Things Really Great Problem Solvers Do What Skills Are Needed of Healthcare Leaders in an Era of Value-Based Care?

Learn More About the Healthcare MBA Program at GW

  • Bipolar Disorder
  • Therapy Center
  • When To See a Therapist
  • Types of Therapy
  • Best Online Therapy
  • Best Couples Therapy
  • Best Family Therapy
  • Managing Stress
  • Sleep and Dreaming
  • Understanding Emotions
  • Self-Improvement
  • Healthy Relationships
  • Student Resources
  • Personality Types
  • Guided Meditations
  • Verywell Mind Insights
  • 2024 Verywell Mind 25
  • Mental Health in the Classroom
  • Editorial Process
  • Meet Our Review Board
  • Crisis Support

Overview of the Problem-Solving Mental Process

Kendra Cherry, MS, is a psychosocial rehabilitation specialist, psychology educator, and author of the "Everything Psychology Book."

why is problem solving important in healthcare

Rachel Goldman, PhD FTOS, is a licensed psychologist, clinical assistant professor, speaker, wellness expert specializing in eating behaviors, stress management, and health behavior change.

why is problem solving important in healthcare

  • Identify the Problem
  • Define the Problem
  • Form a Strategy
  • Organize Information
  • Allocate Resources
  • Monitor Progress
  • Evaluate the Results

Frequently Asked Questions

Problem-solving is a mental process that involves discovering, analyzing, and solving problems. The ultimate goal of problem-solving is to overcome obstacles and find a solution that best resolves the issue.

The best strategy for solving a problem depends largely on the unique situation. In some cases, people are better off learning everything they can about the issue and then using factual knowledge to come up with a solution. In other instances, creativity and insight are the best options.

It is not necessary to follow problem-solving steps sequentially, It is common to skip steps or even go back through steps multiple times until the desired solution is reached.

In order to correctly solve a problem, it is often important to follow a series of steps. Researchers sometimes refer to this as the problem-solving cycle. While this cycle is portrayed sequentially, people rarely follow a rigid series of steps to find a solution.

The following steps include developing strategies and organizing knowledge.

1. Identifying the Problem

While it may seem like an obvious step, identifying the problem is not always as simple as it sounds. In some cases, people might mistakenly identify the wrong source of a problem, which will make attempts to solve it inefficient or even useless.

Some strategies that you might use to figure out the source of a problem include :

  • Asking questions about the problem
  • Breaking the problem down into smaller pieces
  • Looking at the problem from different perspectives
  • Conducting research to figure out what relationships exist between different variables

2. Defining the Problem

After the problem has been identified, it is important to fully define the problem so that it can be solved. You can define a problem by operationally defining each aspect of the problem and setting goals for what aspects of the problem you will address

At this point, you should focus on figuring out which aspects of the problems are facts and which are opinions. State the problem clearly and identify the scope of the solution.

3. Forming a Strategy

After the problem has been identified, it is time to start brainstorming potential solutions. This step usually involves generating as many ideas as possible without judging their quality. Once several possibilities have been generated, they can be evaluated and narrowed down.

The next step is to develop a strategy to solve the problem. The approach used will vary depending upon the situation and the individual's unique preferences. Common problem-solving strategies include heuristics and algorithms.

  • Heuristics are mental shortcuts that are often based on solutions that have worked in the past. They can work well if the problem is similar to something you have encountered before and are often the best choice if you need a fast solution.
  • Algorithms are step-by-step strategies that are guaranteed to produce a correct result. While this approach is great for accuracy, it can also consume time and resources.

Heuristics are often best used when time is of the essence, while algorithms are a better choice when a decision needs to be as accurate as possible.

4. Organizing Information

Before coming up with a solution, you need to first organize the available information. What do you know about the problem? What do you not know? The more information that is available the better prepared you will be to come up with an accurate solution.

When approaching a problem, it is important to make sure that you have all the data you need. Making a decision without adequate information can lead to biased or inaccurate results.

5. Allocating Resources

Of course, we don't always have unlimited money, time, and other resources to solve a problem. Before you begin to solve a problem, you need to determine how high priority it is.

If it is an important problem, it is probably worth allocating more resources to solving it. If, however, it is a fairly unimportant problem, then you do not want to spend too much of your available resources on coming up with a solution.

At this stage, it is important to consider all of the factors that might affect the problem at hand. This includes looking at the available resources, deadlines that need to be met, and any possible risks involved in each solution. After careful evaluation, a decision can be made about which solution to pursue.

6. Monitoring Progress

After selecting a problem-solving strategy, it is time to put the plan into action and see if it works. This step might involve trying out different solutions to see which one is the most effective.

It is also important to monitor the situation after implementing a solution to ensure that the problem has been solved and that no new problems have arisen as a result of the proposed solution.

Effective problem-solvers tend to monitor their progress as they work towards a solution. If they are not making good progress toward reaching their goal, they will reevaluate their approach or look for new strategies .

7. Evaluating the Results

After a solution has been reached, it is important to evaluate the results to determine if it is the best possible solution to the problem. This evaluation might be immediate, such as checking the results of a math problem to ensure the answer is correct, or it can be delayed, such as evaluating the success of a therapy program after several months of treatment.

Once a problem has been solved, it is important to take some time to reflect on the process that was used and evaluate the results. This will help you to improve your problem-solving skills and become more efficient at solving future problems.

A Word From Verywell​

It is important to remember that there are many different problem-solving processes with different steps, and this is just one example. Problem-solving in real-world situations requires a great deal of resourcefulness, flexibility, resilience, and continuous interaction with the environment.

Get Advice From The Verywell Mind Podcast

Hosted by therapist Amy Morin, LCSW, this episode of The Verywell Mind Podcast shares how you can stop dwelling in a negative mindset.

Follow Now : Apple Podcasts / Spotify / Google Podcasts

You can become a better problem solving by:

  • Practicing brainstorming and coming up with multiple potential solutions to problems
  • Being open-minded and considering all possible options before making a decision
  • Breaking down problems into smaller, more manageable pieces
  • Asking for help when needed
  • Researching different problem-solving techniques and trying out new ones
  • Learning from mistakes and using them as opportunities to grow

It's important to communicate openly and honestly with your partner about what's going on. Try to see things from their perspective as well as your own. Work together to find a resolution that works for both of you. Be willing to compromise and accept that there may not be a perfect solution.

Take breaks if things are getting too heated, and come back to the problem when you feel calm and collected. Don't try to fix every problem on your own—consider asking a therapist or counselor for help and insight.

If you've tried everything and there doesn't seem to be a way to fix the problem, you may have to learn to accept it. This can be difficult, but try to focus on the positive aspects of your life and remember that every situation is temporary. Don't dwell on what's going wrong—instead, think about what's going right. Find support by talking to friends or family. Seek professional help if you're having trouble coping.

Davidson JE, Sternberg RJ, editors.  The Psychology of Problem Solving .  Cambridge University Press; 2003. doi:10.1017/CBO9780511615771

Sarathy V. Real world problem-solving .  Front Hum Neurosci . 2018;12:261. Published 2018 Jun 26. doi:10.3389/fnhum.2018.00261

By Kendra Cherry, MSEd Kendra Cherry, MS, is a psychosocial rehabilitation specialist, psychology educator, and author of the "Everything Psychology Book."

Teaching Critical Thinking and Problem-Solving Skills to Healthcare Professionals

  • Published: 27 October 2020
  • Volume 31 , pages 235–239, ( 2021 )

Cite this article

why is problem solving important in healthcare

  • Jessica A. Chacon 1 &
  • Herb Janssen   ORCID: orcid.org/0000-0001-8015-9369 1  

7455 Accesses

6 Citations

1 Altmetric

Explore all metrics

Avoid common mistakes on your manuscript.

Introduction

Determining approaches that improve student learning is far more beneficial than determining what can improve a professor’s teaching. As previously stated, “Lecturing is that mysterious process by which the contents of the note-book of the professor are transferred through the instrumentation of the fountain-pen to the note-book of the student without passing through the mind of either” [ 1 ]. This process continues today, except that the professor’s note-book has been replaced with a PowerPoint lecture and the student’s note-book is now a computer.

In 1910, the Flexner report noted that didactic lectures were antiquated and should be left to a time when “professors knew and students learned” [ 2 ]. Approximately 100 years later, the Liaison Committee on Medical Education (LCME) affirmed Flexner’s comment and suggested that student learning must involve active components [ 3 ]: It seems somewhat obscured that almost 100 years separated these two statements.

Our strategy requires the following: student engagement in the learning process; a curriculum that develops a foundation for each student’s knowledge acquisition; focusing primarily on student learning instead of professor teaching; helping enable students develop critical thinking skills; and encouraging students to develop “expertise” in their chosen discipline.

Six fundamental topics that play a role in the development of a health sciences student’s critical thinking ability will be described. In “Section I,” these topics will be discussed independently, highlighting the importance of each. In “Section II: Proposed Curriculum and Pedagogy to Improve Student Learning,” the topics will be united into a practical approach that can be used to improve student learning, curriculum, pedagogy, and assessment.

Foundation Knowledge

Students use mnemonics to provide a foundation for new information. Although mnemonics help students associate information that they want to remember with something they already know, students learn tads of information that is not placed into a practical, meaningful framework developed by the student [ 4 , 5 ]. This commentary highlights the problem of recalling facts when these facts are presented in isolation. The responsibility for this resides not with the student, but with a curriculum that teaches isolated facts, instead of integrated concepts.

A taxonomy for significant learning presented by Dr. Fink emphasizes the need to develop foundational knowledge before additional information can be learned in an effective manner [ 6 ]. He provides suggestions on developing specific learning goals in given courses. Two of his most important criteria are (1) the development of a foundation of knowledge and (2) helping students “learn how to learn” [ 6 ].

Learning Approaches and Abilities

Howard Gardner introduced the concept of multiple intelligences in the 1980s [ 7 ]. Gardner expanded this idea to include intelligence in the areas of (1) Verbal-linguistic, (2) Logical-mathematical, (3) Spatial-visual, (4) Bodily-kinesthetic, (5) Musical, (6) Interpersonal, (7) Intrapersonal personal, (8) Naturalist, and (9) Existential. He concluded that students gifted in certain areas will be drawn in that direction due to the ease with which they excel. While it is important to recognize these differences, it is crucial to not ignore the need for student development in areas where they are less gifted. For example, students gifted in mathematics who fail to develop intrapersonal and interpersonal skills will more likely become recluse, limiting their success in real-world situations [ 7 , 8 ]. Similar examples can also be found in the medical world [ 7 , 8 ].

Based on Gardner’s work, it seems evident that students admitted to our health sciences schools will arrive with different skills and abilities. Despite this, educators are required to produce graduates who have mastered the competencies required by the various accrediting agencies. Accomplishing this task demands sensitivity to the students’ different abilities. While the curriculum remains focused on the competencies students must demonstrate when training is complete. Creating this transition using a traditional lecture format is difficult, if not impossible.

Active Engagement

In 1910, Flexner suggested that didactic lecture is important; however, it should be limited only to the introduction or conclusion of a given topic [ 2 ]. Flexner stated that students should be given the opportunity to experience learning in a context that allowed them to use scientific principles rather than empirical observations [ 2 ]. Active engagement of the student in their learning process has been recently promoted by the LCME [ 3 ]. This reaffirmation of Flexner’s 1910 report highlights the incredibly slow pace at which education changes.

Critical Thinking

Critical thinking is an active process that, when applied appropriately, allows each of us to evaluate our own activities and achievements. Critical thinking also allows an individual to make minor, mid-course corrections in thinking, instead of waiting until disastrous outcomes are unavoidable.

Educators in Allied Health and Nursing have included critical thinking as part of their curriculum for many years [ 9 ]. Medical educators, on the other hand, have not fully integrated critical thinking as part of their curriculum [ 10 , 11 ].

Bloom’s taxonomy has often been used to define curriculum [ 12 ]. The usefulness and importance of Bloom’s taxonomy is not to be underestimated; however, its limitations must also be addressed. As Bloom and his colleagues clearly stated, their taxonomy describes behavioral outcomes and is incapable of determining the logical steps through which this behavior was developed [ 12 ]. Bloom highlights this shortcoming in his initial book on the cognitive domain. He described two students who solved the same algebra problem. One student does this by rote memory, having been exposed to the problem previously, while the other student accomplishes the task by applying mathematical principles. The observer has no way of knowing which approach was used unless they have prior knowledge of the students’ background [ 12 ]. The importance of this distinction becomes apparent in medical problem-solving.

Contextual Learning

Enabling students to learn in context is critical; however, trying to teach everything in context results in a double-edged sword [ 13 ]. On the one hand, learning material in context helps the student develop a solid foundation in which the new information can be built. On the other hand, the educator will find it impossible to duplicate all situations the student will encounter throughout his or her career as a healthcare provider. This dilemma again challenges the educator to develop a variety of learning situations that simulate real-world situations. It seems that “in context” can at best be developed by presenting a variety of patients in a variety of different situations.

In the clinical setting, the physician cannot use a strict hypothesis-driven study on each patient, but must treat patients using the best, most logical treatment selected based on his or her knowledge and the most reliable information.

Development of Expertise

Several researchers have studied the characteristics required of expert performance, the time required to obtain these traits, and the steps that are followed as an individual’s performance progresses from novice to expert.

Studies involving expert physicians have provided data that can be directly used in our attempt to improve curriculum and pedagogy in the healthcare profession. Patel demonstrated that medical students and entry-level residents can recall a considerable amount of non-relevant data while the expert cannot [ 14 ]. Conversely, the expert physician has a much higher level of relevant recall, suggesting they have omitted the non-relevant information and retained only relevant information that is useful in their practice. Using these methods, the expert physicians produce accurate diagnosis in almost 100% of cases, while the medical students can achieve only patricianly correct or component diagnosis only [ 14 ].

In the healthcare setting, both methods are used. The expert physicians will use forward reasoning when the accuracy of the data allows this rapid problem-solving method. When the patient’s conditions cannot be accurately described using known information, the expert diagnostician will resort to the slower hypothesis-driven, backward reasoning approach. In this manner, the highest probability of achieving an accurate diagnosis in the shortest time will be realized [ 14 ].

Section II: Proposed Curriculum and Pedagogy to Improve Student Learning

The following section will outline several distinct but interrelated approaches to accomplish the six educational principles discussed above. The topics will be highlighted as they apply to the specific topic and each section will be comprised of curriculum, pedagogy, and assessment.

Developing a Knowledge Base Using Active Learning Sensitive to Students’ Abilities

Students admitted into healthcare training programs come from various backgrounds. This is both a strength for the program and a challenge for the educator. The strength is recognized in the diversity the varied backgrounds bring to the class and ultimately the profession. The challenge for the educator is attempting to provide each student with the material and a learning approach that will fit their individual ability and knowledge level. The educator can provide prerequisite objectives that identify the basic knowledge required before the student attempts the more advanced curriculum. Scaffolding questions can also be provided that allow students to determine their mastery of these prerequisite objectives. Briefly, scaffolding questions are categorized based on complexity. Simple, factual questions are identified with a subscript “0” (i.e. 1. 0 , 2. 0 , etc.). Advanced questions have a subscript suggesting the estimated number of basic concepts that must be included/combined to derive the answer.

Using technology to provide these individual learning opportunities online allows each student to address his or her own potential deficits. Obviously, those who find their knowledge lacking will need to spend additional time learning this information; however, using technology, this can be accomplished without requiring additional class time. This approach will decrease learning gaps for students, while excluding unnecessarily repeating material known by others.

The curriculum is divided into two parts: (1) content and (2) critical thinking/problem-solving skills. The basic knowledge and factual content can be provided online. Students are expected to learn this by actively engaging the material during independent study. This saves classroom or small-group sessions for interaction where students can actively learn critical thinking/problem-solving skills.

The curriculum should be designed so that students can start at their own level of understanding. The more advanced students can identify the level appropriate for themselves and/or review the more rudimentary information as needed. As shown by previous investigators, experts omit non-relevant information so that they can focus on appropriate problem-solving. Requiring students to learn by solving problems or exploring case studies will be emphasized when possible.

Technology can be used to deliver the “content” portion of the curriculum. Voice-over PowerPoints and/or video clips made available online through WebCT or PodCast will allow each student to study separately or in groups at their own rate, starting at their own level of knowledge. The content delivered in this fashion will complement the handout and/or textbook information recommended to the students. This will provide the needed basic information that will be used as a foundation for the development of critical thinking and problem-solving. The flipped classroom and/or team-based learning can both be used to help facilitate this type of learning. [ 15 ]

Student Assessments

It is imperative for students to know whether they have mastered the material to the extent needed. This can be accomplished by providing online formative evaluations. These will not be used to determine student performance; however, the results will be provided to the educator to determine the class’s progress and evaluation of the curriculum.

Developing Critical Thinking Skills in the Classroom or Small-Group Setting

Critical thinking skills are essential to the development of well-trained healthcare professionals. These skills are not “taught” but must be “learned” by the student. The educator provides learning experiences through which the students can gain the needed skills and experience. Mastery of the content should be a responsibility placed on the student. Information and assistance are given to the students, but students are held accountable for learning the content. This does not indicate that the educator is freed from responsibility. In fact, the educator will most likely spend more time planning and preparing, compared to when didactic lectures were given; however, the spotlight will be placed on the student. Once the learning modules are developed, they can be readily updated, allowing the educators to improve their sessions with each evaluation.

Curriculum designed to help student students develop critical thinking/problem-solving skills should be learned in context. During the introductory portions of the training, this can be accomplished by providing problem-based scenarios similar to what will be expected in the later clinical setting. The transition to competency-based evaluation in many disciplines has made this a virtual necessity. Critical thinking/problem-solving skills should emphasize self-examination. It should teach an individual to accomplish this using a series of steps that progress in a logical fashion, stressing that critical thinking is a progression of logical thought, not an unguided process.

The methods of teaching critical thinking can be traced back to the dialectic methods used by Socrates. Helping the students learn by posing questions remains an effective tool. Accomplishing this in a group setting also provides each student with the opportunity to learn, not only from their mistakes and accomplishments, but from the mistakes and accomplishments of others. Scenario questions can be presented in a manner similar to those found in many board and licensure exams. This exposes students to material in a format relevant to the clinical setting and to future exams. In larger groups, PowerPoint presentation of scenario questions can be used. Team-based learning (TBL) is useful in encouraging individual self-assessment and peer-peer instruction, while also providing an opportunity for the development of critical thinking and problem-solving skills. After the Individual Readiness Assurance Test (iRAT) exam, students work together to answer the Group Readiness Assurance Test (gRAT). Following this, relevant material is covered by clinicians and basic scientists working together and questions asked using an audience response system. This has been useful in encouraging individual self-assessment and peer-peer instruction while also providing an opportunity for the development of critical thinking and problem-solving skills.

Formative assessment of the students will be given in the class session. This can be accomplished using an audience response system. This gives each individual a chance to determine their own critical thinking skill level. It will prevent the “Oh, I knew that” response from students who are in denial of their own inabilities. Summative assessment in the class will be based on the critical thinking skills presented in the classroom or small-group setting. As mentioned earlier, the students will be evaluated on their ability to think critically and to problem-solve. This will by necessity include evaluation of content knowledge—but only as it pertains to the critical thinking and problem-solving skills. This will be made clear through the use of objectives that describe both content and critical thinking.

Enhancing Critical Thinking Skills in Simulation Centers and Clinics

The development of critical thinking skills in healthcare is somewhat unique. In chess, students can start playing using the same tools employed by the experts (the chess board); however, in healthcare, allowing students to make medical decisions is ethically inappropriate and irresponsible. Simulations centers allow students to gain needed experience and confidence without placing patients at risk. Once the students have mastered simulation center experiences and acquired the needed confidence, they can participate in patient diagnosis under the watchful eye of the expert healthcare professional.

The student’s curriculum now becomes the entire knowledge base of each healthcare discipline. This includes textbooks and journal articles. Students are required to come well prepared to the clinics and/or hospital having developed and in-depth understanding of each patient in their care.

Each day, the expert healthcare provider, serving as a mentor, will provide formative evaluation of the student and his/her performance. Mentors will guide the student, suggesting changes in the skills needed to evaluate the patients properly. In addition, standardized patients provide an excellent method of student/resident evaluation.

Summative evaluation is in the form of subject/board exams. These test the student’s or resident’s ability to accurately describe and evaluate the patient. The objective structured clinical examination (OSCE) is used to evaluate the student’s ability to correctly assess the patient’s condition. Thinking aloud had been previously shown as an effective tool for evaluating expert performance in such settings [ 16 ]. Briefly, think aloud strategies require the student to explain verbally the logic they are using to combine facts to arrive at correct answers. This approach helps the evaluator to determine both the accuracy of the answer and if the correct thought process was followed by the student.

If the time required to develop an expert is a minimum of ten years, what influence can education have on the process?

Education can:

Provide the student with a foundation of knowledge required for the development of future knowledge and skills.

Introduce the student to critical thinking and problem-solving techniques.

Require the student to actively engage the material instead of attempting to learn using rote memory only.

Assess the performance of the student in a formative manner, allowing the lack of information of skills to be identified early, thus reducing the risk of failure when changes in study skills are more difficult and/or occur too late to help.

Provide learning in a contextual format that makes the information meaningful and easier to remember.

Provide training in forward reasoning and backward reasoning skills. It can relate these skills to the problem-solving techniques in healthcare.

Help students develop the qualities of an expert healthcare provider.

Data Availability

Maguire ER. The group-study plan: a teaching technique based on pupil participation: Sharles Charles Scribner’s Sons; 1928.

Flexner A. Medical education in the United States and Canada. From the Carnegie Foundation for the Advancement of Teaching, bulletin number four, 1910. Bull World Health Organ 2002;80(7):594–602.

Liaison Committee on Medical Education [Available from: https://lcme.org/ .

Learning WC. Chapter 6: Kinds of mnemonics [Available from: http://college.cengage.com/collegesurvival/wong/essential_study/6e/assets/students/protecte d/wong_ch06_in-depthmnemonics.html.

Wong L. Essential study skills. Boston: Wadsworth, Inc.; 2015.

Google Scholar  

Fink LD. Creating significant learning experiences. San Francisco: Jossey-Bass; 2003.

Gardner H. Frames of mind: the theory of multiple intelligences. New York: Basic Books; 1983.

Gardner H. Multiple intelligences: the theory in practice. New York: Basic Books; 1993.

Alfaro-LeFevre R. Critical thinking in nursing: a practical approach. 2, illustrated ed: Saunders, 1999.

Sharple JM, Oxman AD, Mahtani KR, Chambers I, Oliver S, Colins K, et al. Critical thinking in healthcare and education. BMJ. 2017;357:2234.

Article   Google Scholar  

Kahlke R, Kevin E. Constructing critical thinking in health professional education. Perspect Med Educ. 2018;7(3):156–65.

Bloom BS, MD E, Furst E, Hill W, Krathwohl DR. Taxonomy of educational objectives. Handbook I: cognitive domain. New York: David McKay Co Inc.; 1956.

Laurillard D. Rethinking university teaching. New York: London: Routledge Falmer; 2002.

Book   Google Scholar  

Patel V, Groen G. The general and specific nature of medical expertise: a critical look. In: Ericsson KA, Smith J, editors. Toward a general theory of expertise. New York: Cambridge. University Press; 1991.

Khe Foon HEW, Chung KLO. Flipped classroom improve students learning in health professions education: a meta-analysis. BMC Medical Education. 2018;18:38.

Brown JL, Ilgen JS. Now you see it, now you don’t: what thinking aloud tells us about clinical reasoning. J Grad Med Educ. 2014;6(4):783–5.

Download references

Author information

Authors and affiliations.

Department of Medical Education, Paul L Foster School of Medicine, Texas Tech University Health Sciences Center El Paso, El Paso, TX, USA

Jessica A. Chacon & Herb Janssen

You can also search for this author in PubMed   Google Scholar

Contributions

The authors wrote and contributed to the final manuscript.

Corresponding author

Correspondence to Herb Janssen .

Ethics declarations

Conflict of interest.

The authors declare that they have no conflict of interest.

Ethics Approval

Code availability, additional information, publisher’s note.

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Rights and permissions

Reprints and permissions

About this article

Chacon, J.A., Janssen, H. Teaching Critical Thinking and Problem-Solving Skills to Healthcare Professionals. Med.Sci.Educ. 31 , 235–239 (2021). https://doi.org/10.1007/s40670-020-01128-3

Download citation

Accepted : 15 October 2020

Published : 27 October 2020

Issue Date : February 2021

DOI : https://doi.org/10.1007/s40670-020-01128-3

Share this article

Anyone you share the following link with will be able to read this content:

Sorry, a shareable link is not currently available for this article.

Provided by the Springer Nature SharedIt content-sharing initiative

  • Find a journal
  • Publish with us
  • Track your research

What is problem solving and why is it important

why is problem solving important in healthcare

By Wayne Stottler , Kepner-Tregoe

  • Problem Solving & Decision Making Over time, developing and refining problem solving skills provides the ability to solve increasingly complex problems Learn More

For over 60 years, Kepner-Tregoe has been helping companies across industries and geographies to develop and mature their problem-solving capabilities through KT’s industry leading approach to training and the implementation of best practice processes. Considering that problem solving is a part of almost every person’s daily life (both at home and in the workplace), it is surprising how often we are asked to explain what problem solving is and why it is important.

Problem solving is at the core of human evolution. It is the methods we use to understand what is happening in our environment, identify things we want to change and then figure out the things that need to be done to create the desired outcome. Problem solving is the source of all new inventions, social and cultural evolution, and the basis for market based economies. It is the basis for continuous improvement, communication and learning.

If this problem-solving thing is so important to daily life, what is it?

Problem-solving is the process of observing what is going on in your environment; identifying things that could be changed or improved; diagnosing why the current state is the way it is and the factors and forces that influence it; developing approaches and alternatives to influence change; making decisions about which alternative to select; taking action to implement the changes; and observing impact of those actions in the environment.

Each step in the problem-solving process employs skills and methods that contribute to the overall effectiveness of influencing change and determine the level of problem complexity that can be addressed. Humans learn how to solve simple problems from a very early age (learning to eat, make coordinated movements and communicate) – and as a person goes through life problem-solving skills are refined, matured and become more sophisticated (enabling them to solve more difficult problems).

Problem-solving is important both to individuals and organizations because it enables us to exert control over our environment.

Fixing things that are broken

Some things wear out and break over time, others are flawed from day-1. Personal and business environments are full of things, activities, interactions and processes that are broken or not operating in the way they are desired to work. Problem-solving gives us a mechanism for identifying these things, figuring out why they are broken and determining a course of action to fix them.

Addressing risk

Humans have learned to identify trends and developed an awareness of cause-and-effect relationships in their environment. These skills not only enable us to fix things when they break but also anticipate what may happen in the future (based on past-experience and current events). Problem-solving can be applied to the anticipated future events and used to enable action in the present to influence the likelihood of the event occurring and/or alter the impact if the event does occur.

Improving performance

Individuals and organizations do not exist in isolation in the environment. There is a complex and ever-changing web of relationships that exist and as a result, the actions of one person will often have either a direct impact on others or an indirect impact by changing the environment dynamics. These interdependencies enable humans to work together to solve more complex problems but they also create a force that requires everyone to continuously improve performance to adapt to improvements by others. Problem-solving helps us understand relationships and implement the changes and improvements needed to compete and survive in a continually changing environment.

Seizing opportunity

Problem solving isn’t just about responding to (and fixing) the environment that exists today. It is also about innovating, creating new things and changing the environment to be more desirable. Problem-solving enables us to identify and exploit opportunities in the environment and exert (some level of) control over the future.

Problem solving skills and the problem-solving process are a critical part of daily life both as individuals and organizations. Developing and refining these skills through training, practice and learning can provide the ability to solve problems more effectively and over time address problems with a greater degree of complexity and difficulty. View KT’s Problem Solving workshop known to be the gold standard for over 60 years.

Blog Image 1

We are experts in:

For inquiries, details, or a proposal!

Subscribe to the KT Newsletter

  • Business Essentials
  • Leadership & Management
  • Credential of Leadership, Impact, and Management in Business (CLIMB)
  • Entrepreneurship & Innovation
  • Digital Transformation
  • Finance & Accounting
  • Business in Society
  • For Organizations
  • Support Portal
  • Media Coverage
  • Founding Donors
  • Leadership Team

why is problem solving important in healthcare

  • Harvard Business School →
  • HBS Online →
  • Business Insights →

Business Insights

Harvard Business School Online's Business Insights Blog provides the career insights you need to achieve your goals and gain confidence in your business skills.

  • Career Development
  • Communication
  • Decision-Making
  • Earning Your MBA
  • Negotiation
  • News & Events
  • Productivity
  • Staff Spotlight
  • Student Profiles
  • Work-Life Balance
  • AI Essentials for Business
  • Alternative Investments
  • Business Analytics
  • Business Strategy
  • Business and Climate Change
  • Design Thinking and Innovation
  • Digital Marketing Strategy
  • Disruptive Strategy
  • Economics for Managers
  • Entrepreneurship Essentials
  • Financial Accounting
  • Global Business
  • Launching Tech Ventures
  • Leadership Principles
  • Leadership, Ethics, and Corporate Accountability
  • Leading with Finance
  • Management Essentials
  • Negotiation Mastery
  • Organizational Leadership
  • Power and Influence for Positive Impact
  • Strategy Execution
  • Sustainable Business Strategy
  • Sustainable Investing
  • Winning with Digital Platforms

Why Problem-Solving Skills Are Essential for Leaders in Any Industry

Business man leading team in problem-solving exercise with white board

  • 17 Jan 2023

Any organization offering a product or service is in the business of solving problems.

Whether providing medical care to address health issues or quick convenience to those hungry for dinner, a business’s purpose is to satisfy customer needs .

In addition to solving customers’ problems, you’ll undoubtedly encounter challenges within your organization as it evolves to meet customer needs. You’re likely to experience growing pains in the form of missed targets, unattained goals, and team disagreements.

Yet, the ubiquity of problems doesn’t have to be discouraging; with the right frameworks and tools, you can build the skills to solve consumers' and your organization’s most challenging issues.

Here’s a primer on problem-solving in business, why it’s important, the skills you need, and how to build them.

Access your free e-book today.

What Is Problem-Solving in Business?

Problem-solving is the process of systematically removing barriers that prevent you or others from reaching goals.

Your business removes obstacles in customers’ lives through its products or services, just as you can remove obstacles that keep your team from achieving business goals.

Design Thinking

Design thinking , as described by Harvard Business School Dean Srikant Datar in the online course Design Thinking and Innovation , is a human-centered , solutions-based approach to problem-solving and innovation. Originally created for product design, design thinking’s use case has evolved . It’s now used to solve internal business problems, too.

The design thinking process has four stages :

4 Stages of Design Thinking

  • Clarify: Clarify a problem through research and feedback from those impacted.
  • Ideate: Armed with new insights, generate as many solutions as possible.
  • Develop: Combine and cull your ideas into a short list of viable, feasible, and desirable options before building prototypes (if making physical products) and creating a plan of action (if solving an intangible problem).
  • Implement: Execute the strongest idea, ensuring clear communication with all stakeholders about its potential value and deliberate reasoning.

Using this framework, you can generate innovative ideas that wouldn’t have surfaced otherwise.

Creative Problem-Solving

Another, less structured approach to challenges is creative problem-solving , which employs a series of exercises to explore open-ended solutions and develop new perspectives. This is especially useful when a problem’s root cause has yet to be defined.

You can use creative problem-solving tools in design thinking’s “ideate” stage, which include:

  • Brainstorming: Instruct everyone to develop as many ideas as possible in an allotted time frame without passing judgment.
  • Divergent thinking exercises: Rather than arriving at the same conclusion (convergent thinking), instruct everyone to come up with a unique idea for a given prompt (divergent thinking). This type of exercise helps avoid the tendency to agree with others’ ideas without considering alternatives.
  • Alternate worlds: Ask your team to consider how various personas would manage the problem. For instance, how would a pilot approach it? What about a young child? What about a seasoned engineer?

It can be tempting to fall back on how problems have been solved before, especially if they worked well. However, if you’re striving for innovation, relying on existing systems can stunt your company’s growth.

Related: How to Be a More Creative Problem-Solver at Work: 8 Tips

Why Is Problem-Solving Important for Leaders?

While obstacles’ specifics vary between industries, strong problem-solving skills are crucial for leaders in any field.

Whether building a new product or dealing with internal issues, you’re bound to come up against challenges. Having frameworks and tools at your disposal when they arise can turn issues into opportunities.

As a leader, it’s rarely your responsibility to solve a problem single-handedly, so it’s crucial to know how to empower employees to work together to find the best solution.

Your job is to guide them through each step of the framework and set the parameters and prompts within which they can be creative. Then, you can develop a list of ideas together, test the best ones, and implement the chosen solution.

Related: 5 Design Thinking Skills for Business Professionals

4 Problem-Solving Skills All Leaders Need

1. problem framing.

One key skill for any leader is framing problems in a way that makes sense for their organization. Problem framing is defined in Design Thinking and Innovation as determining the scope, context, and perspective of the problem you’re trying to solve.

“Before you begin to generate solutions for your problem, you must always think hard about how you’re going to frame that problem,” Datar says in the course.

For instance, imagine you work for a company that sells children’s sneakers, and sales have plummeted. When framing the problem, consider:

  • What is the children’s sneaker market like right now?
  • Should we improve the quality of our sneakers?
  • Should we assess all children’s footwear?
  • Is this a marketing issue for children’s sneakers specifically?
  • Is this a bigger issue that impacts how we should market or produce all footwear?

While there’s no one right way to frame a problem, how you do can impact the solutions you generate. It’s imperative to accurately frame problems to align with organizational priorities and ensure your team generates useful ideas for your firm.

To solve a problem, you need to empathize with those impacted by it. Empathy is the ability to understand others’ emotions and experiences. While many believe empathy is a fixed trait, it’s a skill you can strengthen through practice.

When confronted with a problem, consider whom it impacts. Returning to the children’s sneaker example, think of who’s affected:

  • Your organization’s employees, because sales are down
  • The customers who typically buy your sneakers
  • The children who typically wear your sneakers

Empathy is required to get to the problem’s root and consider each group’s perspective. Assuming someone’s perspective often isn’t accurate, so the best way to get that information is by collecting user feedback.

For instance, if you asked customers who typically buy your children’s sneakers why they’ve stopped, they could say, “A new brand of children’s sneakers came onto the market that have soles with more traction. I want my child to be as safe as possible, so I bought those instead.”

When someone shares their feelings and experiences, you have an opportunity to empathize with them. This can yield solutions to their problem that directly address its root and shows you care. In this case, you may design a new line of children’s sneakers with extremely grippy soles for added safety, knowing that’s what your customers care most about.

Related: 3 Effective Methods for Assessing Customer Needs

3. Breaking Cognitive Fixedness

Cognitive fixedness is a state of mind in which you examine situations through the lens of past experiences. This locks you into one mindset rather than allowing you to consider alternative possibilities.

For instance, your cognitive fixedness may make you think rubber is the only material for sneaker treads. What else could you use? Is there a grippier alternative you haven’t considered?

Problem-solving is all about overcoming cognitive fixedness. You not only need to foster this skill in yourself but among your team.

4. Creating a Psychologically Safe Environment

As a leader, it’s your job to create an environment conducive to problem-solving. In a psychologically safe environment, all team members feel comfortable bringing ideas to the table, which are likely influenced by their personal opinions and experiences.

If employees are penalized for “bad” ideas or chastised for questioning long-held procedures and systems, innovation has no place to take root.

By employing the design thinking framework and creative problem-solving exercises, you can foster a setting in which your team feels comfortable sharing ideas and new, innovative solutions can grow.

Design Thinking and Innovation | Uncover creative solutions to your business problems | Learn More

How to Build Problem-Solving Skills

The most obvious answer to how to build your problem-solving skills is perhaps the most intimidating: You must practice.

Again and again, you’ll encounter challenges, use creative problem-solving tools and design thinking frameworks, and assess results to learn what to do differently next time.

While most of your practice will occur within your organization, you can learn in a lower-stakes setting by taking an online course, such as Design Thinking and Innovation . Datar guides you through each tool and framework, presenting real-world business examples to help you envision how you would approach the same types of problems in your organization.

Are you interested in uncovering innovative solutions for your organization’s business problems? Explore Design Thinking and Innovation —one of our online entrepreneurship and innovation courses —to learn how to leverage proven frameworks and tools to solve challenges. Not sure which course is right for you? Download our free flowchart .

why is problem solving important in healthcare

About the Author

IMAGES

  1. Why problem solving is important?

    why is problem solving important in healthcare

  2. why is it important to have good problem solving skills

    why is problem solving important in healthcare

  3. Problem Solving for Healthcare Workers: How to Get Better

    why is problem solving important in healthcare

  4. Problem-Solving Strategies: Definition and 5 Techniques to Try

    why is problem solving important in healthcare

  5. why is it important to have good problem solving skills

    why is problem solving important in healthcare

  6. Overcoming the Barriers to Change in Healthcare System

    why is problem solving important in healthcare

VIDEO

  1. C++ & Problem Solving Course

  2. Why problem-solving and decision-making skills are important?

  3. 5 Why Problem Solving

  4. Why Problem Solving is a MUST for Competitive exams

  5. How can technology solve our healthcare burden? Prof. Kawal Rhode

  6. Why problem Solving !

COMMENTS

  1. Why Healthcare Organizations Need to Develop a Culture of Problem-Solving

    Creating culture of problem-solving is a focus of Lisa Yerian, MD, Medical Director of Continuous Improvement at Cleveland Clinic. Dr. Yerian is a steward of the Cleveland Clinic Improvement Model, which is changing the way caregivers approach their work. She and her team found that the best path to sustaining a culture of improvement is to ...

  2. Communication Skills, Problem-Solving Ability, Understanding of

    Due to changes in the healthcare environment, it is becoming difficult to meet the needs of patients, and it is becoming very important to improve the ability to perform professional nursing jobs to meet expectations. In this study method, structural model analysis was applied to identify factors influencing the perception of professionalism in ...

  3. Problem Solving in Nursing: Strategies for Your Staff

    Nurses can implement the original nursing process to guide patient care for problem solving in nursing. These steps include: Assessment. Use critical thinking skills to brainstorm and gather information. Diagnosis. Identify the problem and any triggers or obstacles. Planning. Collaborate to formulate the desired outcome based on proven methods ...

  4. Teaching Critical Thinking and Problem-Solving Skills to Healthcare

    Critical thinking/problem-solving skills should emphasize self-examination. It should teach an individual to accomplish this using a series of steps that progress in a logical fashion, stressing that critical thinking is a progression of logical thought, not an unguided process. Pedagogy.

  5. Creativity in problem solving to improve complex health outcomes

    Despite the known importance of creativity in problem solving, relatively few studies detail how workers incorporate creativity into problem solving during the natural course of work—in health care or in other industries. 13 Prior research on creative problem solving in the workplace has been largely theoretical, 14 , 15 with some empirical ...

  6. Health Care Problem Solving

    A physician with a master's degree in biomedical informatics, Chin has started two health tech companies that employ artificial intelligence to solve problems. "I think as a physician, you always feel like things can be better," he said. "When you are in med school, you learn a lot of medical knowledge.

  7. Problem-Solving and Decision-Making Skills for Public Health Practice

    Effective problem-solving can take lots of work, especially for complex problems with no right answer. However, the costs of not solving a problem are high, due to potentially having to solve the problem later and invest additional time and team resources. As such, skilled problem-solvers are important assets in any organization.

  8. Critical Thinking Examples In Nursing & Why It's Important

    He defines critical thinking as "necessary for problem-solving and decision-making by healthcare providers. It is a process where people use a logical process to gather information and take purposeful action based on their evaluation." ... Nursing school gives students the knowledge professional nurses use to make important healthcare ...

  9. Impact of social problem-solving training on critical thinking and

    The complex health system and challenging patient care environment require experienced nurses, especially those with high cognitive skills such as problem-solving, decision- making and critical thinking. Therefore, this study investigated the impact of social problem-solving training on nursing students' critical thinking and decision-making.

  10. Critical thinking in healthcare and education

    Critical thinking is just one skill crucial to evidence based practice in healthcare and education, write Jonathan Sharples and colleagues , who see exciting opportunities for cross sector collaboration Imagine you are a primary care doctor. A patient comes into your office with acute, atypical chest pain. Immediately you consider the patient's sex and age, and you begin to think about what ...

  11. Cultivating Critical Thinking in Healthcare

    They also note that the quality of work depends precisely on the quality of the practitioners' thought processes. Given that practitioners are being asked to meet the challenge of ever more complex care, the importance of cultivating critical thinking skills, alongside advanced problem-solving skills, seems to be taking on new importance.

  12. Factors Influencing Problem-Solving Competence of Nursing Students: A

    Background. Problem solving involves recognizing the difference between the problem solver's current state and the goal state to be reached, and resolving the obstacles that prevent them from achieving the goal [].Acquiring problem-solving ability based on judgment and critical thinking is an important element of nursing education [].Furthermore, the use of effective problem-solving ...

  13. PDF A Problem-Solving Approach

    the objectives, approach and methods of CHM. the importance of information in devising solutions to health problems. the role of data and its translation into indicators for defining the magnitude of health problems and the coverage of related services. the process of comprehensive analysis of health problems.

  14. Thinking your way to successful problem-solving

    To solve a problem you need to generate solutions. However, the obvious solution may not necessarily be the best. To generate solutions, a mixture of creative and analytical thinking is needed (Bransford, 1993). Creativity is about escaping from preconceived ideas that block the way to finding an innovative solution to a problem.

  15. Problem Solving Skills for Healthcare Management

    Problem solving is a vital skill for healthcare management that can help you improve the quality of care and services for your patients and customers. To enhance your problem solving skills, seek ...

  16. 3 Steps to Improve Problem-Solving Skills for Healthcare Careers

    Assess your current skills. 2. Learn from best practices. 3. Apply your skills to real situations. 4. Here's what else to consider. Be the first to add your personal experience. Problem-solving ...

  17. Problem-Solving for Nurse Leaders

    mentorship. delegation. open-mindedness. forward-thinking. accessibility. Another valuable quality in leadership is being proactive in problem-solving. Good leaders handle issues as they arrive. They are capable of "putting out fires," and that's important. Yet, great leaders anticipate problems before they come to a head.

  18. 6 Management Skills that are Important for Success in Health Care

    Problem-solving is a skill with many facets, including remaining objective, engaging creativity, and calling on the right open-minded people for support. Practicing all of these can help healthcare managers become expert problem solvers. 5. Aptitude for Co-Managing in Contemporary Healthcare Facilities.

  19. The Problem-Solving Process

    Problem-solving is a mental process that involves discovering, analyzing, and solving problems. The ultimate goal of problem-solving is to overcome obstacles and find a solution that best resolves the issue. The best strategy for solving a problem depends largely on the unique situation. In some cases, people are better off learning everything ...

  20. Teaching Critical Thinking and Problem-Solving Skills to Healthcare

    The importance of this distinction becomes apparent in medical problem-solving. Contextual Learning. Enabling students to learn in context is critical; however, trying to teach everything in context results in a double-edged sword . On the one hand, learning material in context helps the student develop a solid foundation in which the new ...

  21. What is problem solving and why is it important

    Problem-solving enables us to identify and exploit opportunities in the environment and exert (some level of) control over the future. Problem solving skills and the problem-solving process are a critical part of daily life both as individuals and organizations. Developing and refining these skills through training, practice and learning can ...

  22. Why Problem-Solving Skills Are Essential for Leaders

    4 Problem-Solving Skills All Leaders Need. 1. Problem Framing. One key skill for any leader is framing problems in a way that makes sense for their organization. Problem framing is defined in Design Thinking and Innovation as determining the scope, context, and perspective of the problem you're trying to solve.

  23. Creativity in problem solving to improve complex health outcomes

    Despite the known importance of creativity in problem solving, relatively few studies detail how workers incorporate creativity into problem solving during the natural course of work—in health care or in other industries. 13 Prior research on creative problem solving in the workplace has been largely theoretical, 14, 15 with some empirical ...