Clinical Reasoning for Classification and Diagnosis: Difference between revisions

Introduction[edit | edit source]

Clinical reasoning involves thinking and decision making in professional practice.^{[1] [2]} This is an important skill for rehabilitation professionals to problem solve and establish a rapport with their patients. It is important to reduce errors and ensure patient safety. It is "a complex, interactive phenomenon, contextualised to the unique situation and workplace of the practitioner, the patient, and the practice model."^[1] Two examples of clinical reasoning strategies used in the examination and evaluation of a patient are hypothetico-deductive reasoning^[3] and narrative reasoning.

Examination and Evaluation[edit | edit source]

Table 1 compares examination and evaluation and explains why clinical reasoning is necessary for both.

At the end of the evaluation process, the aim of establishing a diagnosis helps guide the development of an appropriate and comprehensive treatment plan.^[4]

Clinical Reasoning Strategies for Examination and Evaluation[edit | edit source]

Two clinical reasoning strategies used in classification and diagnosis are:

1. hypothetical-deductive reasoning^{[1] [5]}
   • patient cues serve as key elements in creating multiple hypotheses
   • hypotheses are continuously updated and refined as new information is included^[6][7]
   • it is a "cognitive, investigative reasoning process"^[1]
2. narrative reasoning^{[1] [8][9][10][11]}
   • utilises stories to depict clinical encounters, incorporating conditions, consequences, motivation and interaction^[9] 
   • helps clinicians gain insight into the patient experience and foster empathy skills^[12]
   • it is a "collaborative process between the therapist and the patient"^[1]
   • in an educational context, narrative reasoning involves sharing a story, individual reflection and the collaborative exchange of perspectives^[11]

In clinical practice, rehabilitation providers use both to organise an examination and evaluate data.^[4]

Hypothetico-deductive Reasoning in Rehabilitation[edit | edit source]

In medicine, diagnostic characteristics are more apparent – the medical diagnosis is the final step of the hypothetico-deductive model.^[4]

• Example: a patient presents to the emergency room after waking up with their left arm and leg feeling weak and heavy and experiencing a loss of balance. Facial drooping is noticed and the patient is unable to speak. The emergency care provider recognises the stroke-like symptoms (as noted by the American Stroke Association’s warning signs – F.A.S.T. [F = face drooping; A = arm weakness; S = speech difficulty; T = time to call emergency service]), identifies measures to rule in the hypothesis of a stroke and requests a CT (computed tomography) scan to distinguish between ischaemic and haemorrhagic strokes. The medical intervention will be different based on the outcome of the scan.

In rehabilitation, the final step of diagnosis or categorisation is not always that obvious.^[4] There may be diverse categories such as functional deficits, dysphagia or aphasia, and movement deviations.^[4]

• Example: an interprofessional rehabilitation team is discussing a patient with left hemiplegia after a stroke. The occupational therapist mentions that the patient is unable to perform activities of daily living involving self-care. She has difficulty dressing and grooming. The speech and language therapist notes that the patient experiences difficulty with swallowing and talking. The physiotherapist and orthotist are concerned that the patient has a left foot drop, which is affecting her gait and increasing her risk of falling.

The International Classification of Functioning, Disability and Health (ICF) framework can be used to help identify participation restrictions and activity limitations. It is a framework to describe the functioning and disability of an individual in relation to a health condition.^[13] Using the example of the patient with left hemiplegia above, the occupational therapist's hypothetico-deductive reasoning is shown in Table 2.^[4]

Case Example of Using the ICF Model and Hypothetico-deductive Reasoning[edit | edit source]

A 12-year-old female patient with spastic cerebral palsy has difficulty with mobility, fine motor skills and self-care tasks. She also has difficulties with speech and communication. A multidisciplinary rehabilitation team, consisting of a physiotherapist, occupational therapist, prosthetist and speech and language therapist is working collaboratively to address her needs.

Classification of problems according to the ICF Framework

Table 3 provides a summary of possible problems the patient may have.

If you want, you can read more about the ICF:

• Overview of the ICF and Clinical Practice
• International Classification of Functioning, Disability and Health (ICF)
• ICF Checklist

Hypothetico-deductive reasoning process

Table 4 provides different rehabilitation professionals' possible hypotheses for this case example.

HOAC-II and Hypothetico-deductive Reasoning[edit | edit source]

Hypothesis-Oriented Algorithm for Clinicians II (HOAC II)[edit | edit source]

The Hypothesis-Oriented Algorithm for Clinicians II (HOAC-II)^[7] is a framework used by rehabilitation professionals to enhance clinical reasoning and decision making. It was developed to guide clinicians through a systematic process of patient examination, evaluation, diagnosis, prognosis and intervention planning. It may help clinicians to identify patient problems, set goals and measure outcomes effectively.

The algorithm has two parts. Part 1 focuses on the elements of patient management, such as examination, evaluation, diagnosis, prognosis and intervention. Part 2 focuses more on intervention and monitoring the effects of intervention and changes to a patient's care plan.

This article, The Hypothesis-Oriented Algorithm for Clinicians II (HOAC II): a guide for patient management,^[7] provides key details on the HOAC-II, as well as suggestions on how to use the algorithm. If you'd like, you can also read more about the HOAC-II here.

For this page on clinical reasoning for classification and diagnosis, our focus is on Part 1 of the algorithm. The steps of Part 1 are listed below. Please consult the linked article if you wish to read more. A clinical example will be used to illustrate the use of the HOAC-II in clinical decision making for a patient with an existing problem.

Steps of HOAC-II Part 1[edit | edit source]

• Collect initial data^[7]
  • information from the referring professional
  • patient's medical record
  • observation before formal evaluation
  • patient history
• Generate patient-identified problems (PIPs) list^[7]
  • patient describes their problem - functional limitations, etc.
  • this is in the patient's words and reflects their view of what they can or cannot do
• Formulate an examination strategy^[7]
  • based on initial hypotheses constructed from available data and patient-identified problems
• Conduct the examination, analyse data, refine hypothesis and perform any additional examination procedures necessary to confirm or discard hypotheses^[7]
• Add non-patient-identified problems (NPIPs) to the problem list^[7]
  • problems not identified by patient
  • can be identified by the clinician or caregivers, family members, etc.
  • these are often anticipated problems
• Generate hypotheses for existing problems, i.e. why the problem exists, and/or identify the rationale for believing that anticipated problems are likely to occur unless intervention is provided^[7]
• Refine the problem list^[7]
• Establish goals for problems^[7]
• Establish a testing criteria for every existing problem and / or establish predictive criteria for anticipated problems^[7]
• Establish a plan to reassess the testing and predictive criteria and establish a plan to assess the status of problems and goals^[7]
• Plan intervention strategies based on hypotheses and anticipated problems^[7]
• Implement intervention tactics^[7]

Example of Using the HOAC-II and Hypothetico-deductive Reasoning[edit | edit source]

Here is a case scenario using the HOAC-II alongside hypothetico-deductive reasoning.

A 45-year-old male with a history of diabetes mellitus, leading to peripheral arterial disease recently had a right-sided transtibial amputation due to severe infection. He is motivated to regain his independence and return to work as a software engineer. The multidisciplinary team involved in the patient's care includes a physiotherapist, prosthetist and an occupational therapist.

Narrative Reasoning[edit | edit source]

Aspects of narrative reasoning include the following:

• focuses on telling and interpreting stories to guide patient-centred clinical practice^[14]
• requires the clinician to make inferences about the motives of others based on observations^[15]
• focuses on the person's intentions^[4]
• the process of understanding a patient's experience with disability within the biopsychosocial context of their lives, including beliefs, values and culture^[16]
• often heard through discussions regarding a clinical encounter^[8]
• retelling the encounter naturally reveals the interpretation of the patient's intentions, goals and motives^[8][10]

Example of Using Narrative Reasoning in Rehabilitation[edit | edit source]

The following is a case scenario focusing on narrative reasoning to provide patient-centred care.

Meet Joe Blogs, a 65-year-old retired teacher who was diagnosed with Parkinson's two years ago. Joe lives with his wife, Janey, and they have three adult children who visit often. Joe's primary concern is maintaining his independence and continuing to engage in his favourite hobbies, which include writing poetry and attending local poetry readings.

Through discussions with Joe, the multidisciplinary rehabilitation team learned that Joe's tremors and rigidity make it difficult for him to write legibly, causing frustration and discouragement. He also expresses concern about his ability to attend poetry readings due to his soft voice and difficulty with mobility.

Considering Joe's story, the team might suggest the following interventions:

• adaptive writing tools such as voice-to-text software or a specialised pen that can help reduce the impact of tremors on his writing - this will allow Joe to continue expressing himself through poetry
• voice therapy: a speech and language therapist can help Joe improve his voice projection and clarity, enabling him to continue participating in poetry readings
• mobility aids: the physiotherapist and occupational therapist can assess Joe's mobility needs and recommend appropriate aids, such as a walker or a cane, to ensure he can safely navigate the venues where poetry readings are held
• home modifications: the rehabilitation team can evaluate Joe's home environment and suggest modifications, such as installing grab bars or removing tripping hazards, to promote his independence and safety

Through narrative reasoning, the team can better understand Joe's unique story and tailor interventions to his specific goals and values. By helping him to engage in the things he loves, his identity as a poet is recognised. His desire for independence is also recognised as central to his well-being. Suppose Joe is resistant to using a mobility aid, for example. In that case, the rehabilitation team can explore his concerns and work with him to find a solution that aligns with his self-image and preferences.

Narrative reasoning allows clinicians to see a patient as a whole person with a unique story, instead of only focusing on the medical diagnosis. When clinicians understand a patient's perspective, they can develop a more personalised and effective rehabilitation plan that will improve a patient's quality of life.

^[17]

References[edit | edit source]