Intro to diagnosis/managment

Question 1

The process of clinical reasoning is:
Collaborative
Reflective
Conscious
Unconscious 
All of the above

Answer 1

All of the above

Question 2

Clinical reasoning is based on what aspects (3)?

Answer 2

1. Clinical findings
2. Patient choices
3. The clinician’s judgment (knowledge, experience, evidence)

Question 3

Pattern Recognition (system 1) of problem-solving methods -

Answer 3

1. “Forward reasoning”
2. Faster
3. More efficient
4. Developed “scripts” or prototypes

Question 4

Hypothetico-Deductive (System II) of problem-solving methods -

Answer 4

1. “Backward reasoning”
2. Heavy Reliance in Novice Practice
3. Utilized by experts when faced with unfamiliar presentations

Question 5

Mixed (diagnostic reasoning) of problem-solving methods most common in what level of clinicians?

Answer 5

Most common among expert clinicians

Question 6

Probabilistic reasoning -

ex: Hx of ACL injury ->

Answer 6

1. Assessing likelihood of a clinical hypothesis
2. Statistic
3. Approximated
   ex: high probability of degenerative ACL

Question 7

Causal reasoning uses inferences from _____ findings to reason a _____ relationship of variables.

Answer 7

1. Inferences from clinical findings
2. Cause and effect relationships of variables
3. Based on normal/abnormal physiology

Question 8

Case-based reasoning -

Answer 8

1. Knowledge stored in a symbolic “script”

2. “Script” recalled in subsequent encounters with similar circumstances

Question 9

Narrative reasoning -

Answer 9

Concerns the understanding of patients’ stories in order to gain insight into their:

1. Experiences of disability or pain
2. Their subsequent beliefs, feelings, and health behaviors

Question 10

Strategy of seeking data to reduce suspicion of unlikely hypothesis

Answer 10

Elimination strategy

Question 11

Negative likelihood ratio -
What values are of importance?
ex: Canadian c-spine rules

Answer 11

how many times more likely a negative test will be seen in those with the disorder than those without the disorder
Values <0.2 of importance
Values < 0.1 of significant importance
ex: Canadian c-spine rules - if test in negative then we can rule out need for x-rays

Question 12

T/F Low negative likelihood ratio is good earlier in examination.

Answer 12

True rule out serious or other health conditions

Question 13

Strategy seeking data to support a highly likely hypotheses

Answer 13

Confirmation strategy

Question 14

positive likelihood ratio -
What values are of importance?
ex: Wainner’s Test Item Cluster for cervical Radiculopathy

Answer 14

how many times more likely a positive test will be seen in those with the disorder than those without the disorder
Values >5 of importance
Values >10 of significant importance
ex: Wainner’s Test Item Cluster for cervical Radiculopathy - if positive, will likely have diagnoses

Question 15

T/F High positive likelihood ratio is good earlier in examination.

Answer 15

False, high positive is good but administered later in examination

Question 16

What type of tests aids in narrowing hypothesis and therefore examination procedures?

Answer 16

Special tests

Question 17

Tests with low (-) Likelihood Ratio (-LR) good to -

Answer 17

refute a diagnostic hypothesis

Question 18

Tests with high + Likelihood Ratio (+LR) good to

Answer 18

confirm a diagnostic hypothesis

Question 19

Discrimination Strategy -

Answer 19

1. seeking information to discriminate between likely hypotheses
2. We will have strategies that help us be confident with one diagnosis over another

Question 20

Ockham’s Razor

Answer 20

the simplest solution may be the best

Question 21

Hickam’s Dictum

Answer 21

Patients can have as many diseases as they d[ar]n well please

Question 22

What are the steps of Diagnosis: the differential process to come to a diagnostic hypothesis?

Answer 22

1. Chart review/patient interview
2. visual inspection
3. systems review
4. elimination tests
5. structural stress testing
6. palpation and joint mobility tests
7. confirmation tests

Question 23

What are the steps after the diagnostic hypothesis?

Answer 23

1. Performance measures/functional improvement
2. Continued testing
3. Response to interventions
4. Clinical progress

Question 24

T/F In many cases, special clinical tests are also used early to rule out the presence of red flags or conditions

Answer 24

True

Question 25

In the examination sequence, after the screening/sensitive testing we make our first order decision. What does that mean?

Answer 25

If we will treat, treat and refer, or just refer

Question 26

T/F In the examination sequence, after the physical performance measures we have a high suspicion of impaired driven treatment

Answer 26

True

Question 27

What elements do we look at for our initial hypothesis generation? (4)

Answer 27

1. Non-Musculoskeletal Health Conditions & Serious Musculoskeletal Conditions
2. Potential radicular & referral sources
   - Nerve root
   - Peripheral nerve injury/ entrapment
   - Somatic referred pain
3. Screening adjacent joint regions (commonly described as joint above and below)
4. Differentiating local MSK conditions

Question 28

Test-retest model -

Answer 28

1. Continuous throughout services
2. Apply intervention and assess response to intervention
3. Determine the implications on continued services (test further, continue with intervention, continue with complementary intervention, reassess at next visit, discontinued intervention)

Question 29

Patient Specific Functional Scale (PSFS) -

Answer 29

Individualized measure intended to reflect functional status
1. pt identifies activities for which performance has been limited
2. pt rates performance for each task 0-10
0 = inability to perform activity
10 = ability to perform activity at same level as before injury or problem

Question 30

What is the minimal detectable change for the Patient Specific Functional Scale (PSFS)?

Answer 30

Average score = 2 points

Single activity = 3 points

Question 31

The Patient Specific Functional Scale (PSFS) is validated for individuals with health conditions that include:

Answer 31

1. neck pain
2. cervical radiculopathy
3. knee pain
4. LBP

Question 32

Signs and symptoms consistent with a non-musculoskeletal origin or serious musculoskeletal health condition that requires referral to another clinician -

Answer 32

red flags

Question 33

Indicate need for more extensive examination or cautions/ contraindications to certain tests/ interventions

Answer 33

yellow flags

Question 34

Screening questions for patient interview (

Answer 34

1. Hx cancer
2. Hx smoking
3. Hx Infection
4. Hx Trauma
5. Wt loss
6. Sexual dysfunction
7. LE dysesthesia/ motor impairments (bilateral v. unilateral)
8. Fever
9. Phoresis
10. DM
11. Immunocompromisation
12. Fatigue
13. Bowel/bladder dysfunction

Question 35

Category 1 factors that require immediate medical attention:

Answer 35

1. Blood in sputum
2. Loss of consciousness
3. Neuro deficit not explained by monoradiculopathy
4. Numbness/paresthesia in perianal region
5. Path changes to bowel/bladder
6. Pulsatile abdominal masses

Question 36

Category 2 factors that require subjective questioning and precautionary examination and treatment procedures

Answer 36

1. Age > 50
2. Clonus
3. Fever
4. Gait deficits
5. Hx of infection/hemorrhage
6. Hx of metabolic bone disorder
7. Hx of cancer
8. Impairment precipitated by recent trauma
9. Long term corticosteroid use
10. Non healing sores or wounds
11. Writhing pain
12. Unexplained recent wt loss

Question 37

Category 3 factors that require physical testing and differentiation analysis (UM Neuron tests)

Answer 37

1. Abnormal reflexes
2. Radiculopathy or paresthesia (uni/bilateral)
3. Unexplained referred pain
4. Unexplained UE LE weakness

Question 38

If category 3 factors present and UM neuron tests (babinski, clonus, increased DTRs) are positive, what should you do?

Answer 38

consider neurosurgical/orthopedic consultation

Question 39

If category 3 factors present and differentiation of referred pain what are three possibilities?

Answer 39

1. Myelopathy (category 1) - refer out
2. Somatic referred pain - treat
3. Radiculopathy - Treat with caution

Question 40

What aspects do you visually inspect for during physical examination? (5)

Answer 40

1. Affect
2. Anthropometrics
3. Preferred positions
4. Integumentary
5. Posture (Symmetry, Bony/ soft contours, Resting posture vs ability to correct)

Question 41

In the systems review you will test what components and defer what procedures?

Answer 41

• Test components that you do not plan to assess further

- Defer other procedures that you plan to test more thoroughly

Question 42

Goal of a systems review?

Answer 42

Identify impairments for continued tests and measures:

1. Cardiopulmonary
2. Integumentary
3. Neuromuscular (Cognition/ Affect)
4. MSK

Question 43

What is the difference between SYSTEMS REVIEW vs. ELIMINATION TESTS?
Ex: ULTT

Answer 43

• > The intent
  1. Systems review - Testing body systems to determine need for further examination in “tests and measures”
  2. Elimination tests - Part of “tests and measures”
• Screening for health conditions commonly associated with the diagnostic hypotheses to aid in the differential process
• ex: ULTT to identify patient with UE pain of radicular origin

Question 44

ELIMINATION TESTS: QUARTER SCREENING -

Answer 44

1. Upper and lower quarter structures stressed to determine need for more specific regional examination
2. Overpressure is often applied at the end of AROM (if motion is full and painless) to stress structures for clearance
3. Strength grossly assessed to identify force production capacity

Question 45

ELIMINATION TESTS:  Neurologic Screening Tests 
What tests for:
Sensation?
Motor Function?
Reflexes?
Considerations?

Answer 45

1. Sensation (Light Touch, Pin Prick, Proprioception)
2. Motor Function (Myotome vs. peripheral nerve, Coordination)
3. Reflexes (DTR, Pathologic Reflexes (present or absent))
4. Considerations (Symmetry, Normal/ Diminished/ Absent)

Question 46

ELIMINATION TESTS: Special Tests

Implication for performing test?

Answer 46

• safety (wouldn’t apply pressure to possible rotator cuff tear)
• information provided
• role in differential

Question 47

Evidence based application of special tests (what are you looking for in the evidence)?

Answer 47

• Available body of evidence
• Utility of test per diagnostic research properties
• Quality Assessment of Diagnostic Accuracy Studies (QUADAS) tool (Cook, 2013)
• Sufficient Score >/= 10/14

Question 48

5 aspects of the beigton’s scale?

Answer 48

1. Hands flat on floor with knees straight?
2. Bend elbow backwards?
3. Bend knee backwards?
4. Bend thumb back on to front of forearm?
5. Bend little finger up at 90 to back of hand?

Question 49

Process of inductive reasoning in which particular tissues are stressed during different types of testing procedures, and then the results of the tests are compared to narrow down a likely lesion/ tissue type -

Answer 49

Structural stress testing (AROM, PROM, Resistive training)

Question 50

provocation testing -

Answer 50

tension on specific structures with testing procedures

Question 51

Structural stress testing provides info about:

Answer 51

1. Quantification and Qualification(ROM, performance symptoms)
2. Willingness to perform movement

Question 52

Concordant vs discordant symptoms -

Answer 52

Concordant: consistent with pt’s complaints
Discordant: not consistent with patient’s complaint(s)

Question 53

Contractile unit structures stress testing:
What structures?
What offers greatest provocation with testing?

Answer 53

Contractile Unit Structures: muscle, tendon, bony insertion

1. Resistive Testing > Active Contraction and passive stretch
2. Passive shortening non-provocative

Question 54

Inert structures -

Answer 54

Joint Capsule, ligament, bursa, fascia, dura mater, nerve, bone, disc

Question 55

palpation -

Answer 55

• Find bony landmarks, bony structure abnormalities

- Identify relevant soft tissue structures

Question 56

When palpating, assess what?

Answer 56

1. Joint congruence, tenderness, stability
2. Superficial temperature, inflammation
3. Dryness or excessive moisture of skin
4. Sensation
5. Pulses, tremors, fasiculations, creptius
6. Tension, thickness, texture of soft tissue (spasm, turgor, flexibility, pliability, fibrosis)
7. Pain in various structures

Question 57

At what position of joint do you perform joint mobility testing?

Answer 57

Resting position

Question 58

Stabilize (distal/proximal) segment when testing joint mobility?

Answer 58

Proximal (unless using indirect technique)

Question 59

When performing joint mobility testing, asses what?

Answer 59

1. Symptom Provocation
2. Quality (“Normal”, Mechanical block, Guarded)
3. Quantity (Joint Integrity, Hypermobile, Hypomobile, “normal”)
4. Willingness

Question 60

What type of mechanical loading would you expect at:
Articular surfaces?
Inert joint stabilizers (capsule/lig)?
Guarding contractile units?
Point of contact?

Answer 60

Articular surfaces? shear loading
Inert joint stabilizers (capsule/lig)? tensile loading
Guarding contractile units? Tensile loading
Point of contact? Local compression

Question 61

Once hypothesis has been narrowed, can use what type of tests?

Answer 61

Confirmation tests

Question 62

What type of likelihood ratio do you want confirmation tests to have?

Answer 62

high Positive with high specificity (if test is positive, helps rule in health condition

Question 63

Ex: Suspected labral lesion
+ LR = infinite
- LR = .009
QUADAS score 3/14

Answer 63

Excellent to rule in if test is positive and out if test is negative, however, QUADAS score is insufficient so not good quality research

Question 64

Common (general) impairments patient’s will present with -

Answer 64

1. Pain
2. Tissue Damage
3. Range of Motion (ROM)
4. Joint mobility (hypermobility v. hypomobility)
5. Posture (Impairment vs. sum of impairments and environmental/ personal factors)
6. Muscle Guarding
7. Muscle performance (Coordination, Endurance, Strength)

Question 65

Tensile tissue loading -

Answer 65

forces in opposite directions

Question 66

Compression tissue loading -

Answer 66

forces toward each other

Question 67

Shear tissue loading -

Answer 67

2 surfaces rubbing against in opposite directions (can be problematic for discs)

Question 68

Distribution of loading -

Answer 68

if all forces in one area -> excessive loading at point of contact and can lead to break down

Question 69

Collagen stress-strain curve:
Toe Region - 
Elastic Deformation Region - 
Plastic Deformation Region - 
Tissue Failure -

Answer 69

1. Toe Region - straightening out wavy fibers
2. Elastic Deformation Region - slight stretch on structure but not enough to deform (will resume original shape w/o stress)
3. Plastic Deformation Region - (microscopic tears) lead to permanent stretch
4. Tissue Failure - broken fibers (macroscopic failure)

Question 70

Repetitive Stress injuries -

ex:

Answer 70

Low intensity of loading, High frequency and/or duration

Examples: Spondylolysthesis, or Tennis Elbow (lateral epicondylopathy)

Question 71

Trauma injuries -

ex:

Answer 71

High Intensity of loading, Low frequency

Example: Fractured vertebrae related to a fall from a ladder

Question 72

Injury classification:
Acute -
Subacute -
Chronic -

Answer 72

1. Acute: typically 7-10 days
2. Subacute: subsequent 5-10 days
3. Chronic: Injury lasting longer than expected under “normal” healing conditions

Question 73

General expected tissue healing:
Phase 1
Phase 2
Phase 3/4

Answer 73

PHASE I: acute inflammatory response
PHASE II: repair and regeneration
PHASE III (/ IV): remodeling and maturation

Question 74

What are two general tissue healing requirements?

Answer 74

1. Controlled forces necessary to facilitate tissue synthesis
2. Protection from excessive and harmful stresses on tissues

Question 75

Phase 1 of expected tissue healing for ligaments?

Answer 75

Acute Inflammation and Reaction (First 3 days)

- Acute inflammatory response & hematoma formation

Question 76

Phase 2 of expected tissue healing for ligaments?

Answer 76

Repair & Regeneration (2-3 days post-injury to ~6 weeks)

• Fibroblasts produce collagen
• Matrix disorganized

Question 77

Phase 3 of expected tissue healing for ligaments?

Answer 77

Remodeling and Maturation (>/= 12 months post injury)

• Collagen fibers become more parallel/ organized
• Increased tissue contraction and tensile strength

Question 78

Healing requirements for ligaments:

Answer 78

1. Disrupted tissue must remain in continuity
2. Controlled forces necessary to facilitate collagen synthesis (tensile loading)
3. Protection from harmful stresses on tissues

Question 79

Phase 1 of expected tissue healing for tendons?

Answer 79

Inflammatory

- First 3 days

Question 80

Phase 2 of expected tissue healing for tendons?

Answer 80

Reparative/ Collagen Productive

• Begins within first week
• Increased fibroblasts/ fibroblastic activity through week 4
• Collagen fibers initially formed disorganized and at random
• Cells and collagen become more aligned more perpendicular to long axis over time

Question 81

Phase 3 of expected tissue healing for tendons?

Answer 81

Remodeling

- Collagen/ cells re-alignment typically complete by ~2 months

Question 82

After initial tendon healing, why is controlled tensile loading necessary?

Answer 82

1. Parallel organization associated with improved tissue strength
2. Motion (eccentric) can aid in prevention of cross-linkage between tendon tissue and sheath tissue

Question 83

T/F For a more extreme tendon injury, you don’t want to use tensile loading.

Answer 83

True

Question 84

Describe the organization of ligaments and what type of loading?

Answer 84

Less parallel = multidirectional loading

Question 85

Describe the organization of tendons and what type of loading?

Answer 85

More parallel and organized = loads in one direction

Question 86

Tendonitis -

Answer 86

Inflammation of tendon

Question 87

Tenosynovitis -

Answer 87

inflammation of synovial sheath surrounding tendon

Question 88

Tendinosis

Is there an inflammatory process and healing response?

Answer 88

• Degeneration of the collagen tissue in tendons due to aging, microtrauma, or vascular compromise
• Disorganization of tissue
• No active inflammatory process
• Failed healing response

Question 89

If you have loss of proteoglycans in the articular cartilage, what can you expect of the matrix?

Answer 89

Loss of proteoglycans: matrix reaches certain amount of loss that is irreversible (matrix unable to replenish)

Question 90

The healing of articular cartilage depends on what?

Answer 90

Healing depends on:

1. extent of injury: (chondral, chondral/ subchondral, subchondral, cystic)
2. Injury type (Blunt trauma, penetrating Injury, frictional abrasion, sharp concentration of joint forces)

Question 91

What to expect with a mechanical injury to the chondral level of articular cartilage?

Answer 91

Limited response per no inflammatory response

Question 92

What to expect with a mechanical injury to the subchondral level of articular cartilage?

Answer 92

1. Extends to blood supply
2. Fills in with tissue more like fibrocartilage
3. Fibrin clot at 48 hours
4. 2 months: resembles “normal” cartilage
5. Erosive changes observed around 6 months

Question 93

Common immobilization/ protection timelines for bone healing - (by age)

Answer 93

Common immobilization/ protection timelines: 6-8 weeks for adults, 4-6 weeks for children

Question 94

Immobilization based on:

Answer 94

1. prevention of excessive shear - early excessive loading: risk for pseudoarthrosis (false joint - cartilaginous)
2. Insufficient loading may be detrimental

Question 95

Pathophysiology of stress fractures:

Answer 95

1. Repetitive microtrauma
2. Osteoblastic activity lags in comparison to osteoclastic activity
3. Stress reaction (early in progression) may progress to cortical disruption (clear Frx line), then complete Frx

Question 96

Fatigue Fractures -

ex:

Answer 96

Normal bone, abnormal stress

ex: couch potato to marathon runner

Question 97

Insufficiency Fractures -

ex:

Answer 97

Normal stress, abnormal bone

ex: walking with older age

Question 98

What type of onset for stress fractures?

Answer 98

Insidious onset, progressive

Question 99

At what point do stress fractures affect ADLs/performance?

Answer 99

Progression

Question 100

Risk factors of stress fractures?

Answer 100

1. Female >
2. Amenorrhea
3. Smoking
4. Prolonged steroid use

Question 101

Symptomology of stress fractures - (3)

Answer 101

1. Focal pain
2. Exercise-induced pain
3. Night pain

Question 102

Physical examination of stress fractures - (5)

Answer 102

1. Local tenderness
2. Limited ROM at joint area (guarded vs. painful end feel)
3. Palpable guarding
4. Possible local swelling
5. MRI, bone scan findings

Question 103

Arthrogenic Muscle Inhibition (AMI)

Answer 103

• continued reflex inhibition of musculature surrounding a joint following injury or joint effusion
• Compensation strategies may cause damage to joint structures by resulting in abnormal joint loading during activity performance

Question 104

Increase in the resting activity level of a muscle related to a protective response from painful stimuli -

Answer 104

guarding

Question 105

Ectopic calcification -

Answer 105

accumulation of osteoid material in soft tissue

Question 106

Secondary responses to injury:

Answer 106

1. AMI
2. Guarding
3. Ectopic calcification
4. Atrophy\
5. Contracture
6. Anxiety/fear

Question 107

What are the two types of instability?

Answer 107

1. Neuromuscular (functional) instability

2. Structural instability

Question 108

Neuromuscular (Functional) Instability -

Answer 108

• Poor neuromuscular control, typically thought to be secondary to an injury, resulting in aberrant movement patterns and subsequent harm to involved structures (e.g. deep neck flexors & paraspinals following trauma)
• Typically what PTs think when instability is used

Question 109

Structural Instability -

Answer 109

• Disruption in the continuity of an anatomic structure that limits the structure’s ability to accept loading (fracture, ligament rupture or laxity, etc.)
• Typically what the rest of the health care world thinks when this term is used