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Clinical Reasoning in Veterinary Practice


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href="#ulink_4004d955-73e3-59da-998e-2342e5ee70aa">Figure 1.4 Memorisation benefit through subvocalisation.

Schematic illustration of benefits of having a learning buddy.

      Key points – learning more effectively

       Make your learning multisensory. The more senses you use, the better you remember.

       Create and use frameworks on which to ‘hang’ your knowledge; they are powerful tools to help you remember and learn.

       The logical clinical reasoning process, the framework at the heart of this book, is specifically designed to help you become a more effective veterinarian, especially when faced with the unexpected.

      1 Ebbinghaus, H. 1885. Memory: A Contribution to Experimental Psychology (translated: Ruger, H. A., and Clara E. Bussenius, 1913). http://nwkpsych.rutgers.edu/~jose/courses/578_mem:learn/2012/readings/Ebbinghaus_1885.pdf.

      2 Flanagan, K. 1996. Maximum Points, Minimum Panic: The Essential Guide to Surviving Exams. Dublin: Marino Books.

      Jill E. Maddison1 and Holger A. Volk2

       1 Department of Clinical Science and Services, The Royal Veterinary College, London, UK

       2 Department of Small Animal Medicine and Surgery, University of Veterinary Medicine Hannover, Hannover, Germany

      The why

       The aim of this book is to assist you to develop a structured and pathophysiologically sound approach to the diagnosis of common clinical problems in small animal practice.

       The development of a sound basis for clinical problem‐solving provides you, a current or future veterinarian, with the foundation and scaffolding to allow you to potentially reach a diagnosis regardless of whether you have seen the disorder before.

       Furthermore, the method presented in this book will help you avoid being stuck trying to remember long differential lists and hence free your thinking skills to solve complex medical cases.

       The aim of the book is not to bombard you with details of different diseases – there are many excellent textbooks and other resources that can fulfil this need. What we want to provide you with is a framework by which you can solve clinical problems and place your veterinary knowledge into an appropriate problem‐solving context.

      Introduction to clinical reasoning

Schematic illustration of skill acquisition pathway.

      We see a similar process in clinical education. During the progression from veterinary student to experienced clinician, knowledge and skills are initially learnt in a conscious and structured way. Veterinary undergraduate education in most universities is therefore based on systems teaching, discipline teaching, species teaching or a mixture of all three. These are excellent approaches to help develop a sound knowledge base and understanding of disease processes and treatments.

      The next part of the journey to becoming an experienced clinician is that clinical judgement and decision‐making processes become unconscious or intuitive. The rapid, unconscious process of clinical decision‐making by experienced clinicians is referred to in medical literature as intuition or the ‘art’ of medicine. The conscious thinking process is often referred to as ‘science’ (evidence based) or analytic. Intuition is context‐sensitive, influenced by the level of the clinician’s experience, context‐dependent and has no obvious cause‐and‐effect logic. Why is this important? We have all thought ‘I just know that the animal has …’ The unconscious mind will pretend to the conscious mind that the clinical decision was based on logical assumptions or causal relationships. This is not a problem as long the intuition or ‘pattern recognition’ has resulted in a correct diagnosis. However, when it does not, we need to understand why it failed and have a system in place to rationally progress our clinical decision‐making.

      This book will provide you with the tools and thinking framework needed to unravel any clinical riddle, unleashing the potential of your unconscious mind rather than blocking your working memory as you try to recall all of the facts you may have once known.

      Why are some cases frustrating instead of fun?

      Reflect on a medical case that you have recently dealt with that frustrated you or seemed difficult to diagnose and manage. Can you identify why the case was difficult?

      There can be a multitude of reasons why complex medical cases are frustrating instead of fun.

       Was it due to the client (e.g. having unreal expectations that you could fix the problem at no cost to themselves? Unwilling or unable to pay for the diagnostic tests needed to reach a diagnosis? Unable to give a coherent history?)

       Was the case complex and didn’t seem to fit any recognisable pattern?

       Were you unable to recall all of the facts about a disease, and this biased your thinking?

       Did the signalment, especially breed and age, cloud your clinical reasoning, resulting in an incorrect differential list?

       Did the case seem to fit a pattern, but subsequent testing proved your initial diagnosis wrong?

       Did you seem to spend a lot of the client’s money on tests that weren’t particularly illuminating?

      Can you add any other factors that have contributed to frustrations and difficulties you may have experienced with medical cases?

      Apart