Elbow APTA (2)

Question 1

If a pt has varus instability, which structure is primarily compromised?

Answer 1

• RCL

Question 2

What are the 3 primary scenarios that could generate varus instability?

Answer 2

• simple or complex dislocation
• varus elbow stress
• iatrogenic causes

Question 3

What are 2 potential causes of varus instability that could result from relative repetitive stress?

Answer 3

• chronic overuse due to significant weightbearing through the UE; e.g., crutch use
• postural deformity; cubitus varus deformity. Could occur following childhood fx or be congenital

Question 4

Is corticosteroid injection concerning for generating varus instability?

Answer 4

• yes
• there are cases of posterolateral rotational instability that followed lateral epicondylitis treatment managed with injection

Question 5

What is the typical cause of a varus posteromedial rotary instability?

Answer 5

• elbow subluxation that avulses portions of the RCL, or the RCL in its entirety from the lateral epicondyle and fractures the anteromedial tip of the coronoid.

Question 6

A pt presents with lateral elbow pain following a traumatic subluxation. What may be of concern?

Answer 6

• varus posteromedial rotary instability, or RCL avulsion

Question 7

What is a standard presentation for pts with long-standing varus posteromedial rotary instability?

Answer 7

• clicking/popping with flexion/extension

- aggravation of symptoms with attempts to abduct the arm

Question 8

What is preferred management for varus posteromedial rotary instability?

Answer 8

• surgery; usually ORIF

- typically poor outcomes with nonoperative management

Question 9

What are the general rehab considerations post-op stabilization for varus posteromedial rotary instability?

Answer 9

• stability and alignment are key to successful outcomes
• shoulder abduction should be avoided for at least the first 4 weeks
• should be careful with force transmission through the elbow at >60* flexion to support the healing of the coronoid px

Question 10

What is the expected mechanism of injury for a posterolateral rotary instability?

What is happening anatomically?

Answer 10

• combination of axial compression, valgus stress, and supination
• the ulna supinates or ER away from the trochlea, subluxing the humeroulnar and humeroradial joints, rather than a radial head dislocation

Question 11

What is the typical pt presentation with a posterolateral rotary instability?

Answer 11

• vague elbow discomfort, lateral elbow pain
• clicking/snapping/clunking with supination
• “something not right” with elbow extension with supination
• giving way with loaded elbow flexion with supination

Question 12

What is the common differential dx with a posterolateral rotary instability?

Answer 12

• RCL insufficiency
• lateral epicondalgia/tendinopathy
• radial tunnel syndrome
• cervical spine referral

Question 13

What are common dx that may be secondary to a posterolateral rotary instability?

Answer 13

• lateral tendinopathy

- neural inflammation

Question 14

What are primary considerations to nonoperative management of posterolateral rotary instability?

Answer 14

• hinged elbow brace with forearm in supination to protect healing structures (more likely w/ acute injury) for 4-6 weeks
• avoidance of shoulder abduction and IR when performing elbow flexion/extension exercise
• little literature support for strengthening exercise, although conceptually it makes sense to strengthening secondary supports

Question 15

What are typical causes of ulnar (medial) collateral ligament insufficiency?

Answer 15

• traumatic valgus stress (FOOSH)

- insidious onset/overuse (overhead throwing athletes)

Question 16

What portion of the UCL is most vulnerable to valgus loading?

Answer 16

• anterior portion

Question 17

Valgus force is greatest at the elbow during which phases of the throwing motion?

Answer 17

• cocking/late cocking to the acceleration phase

Question 18

What test is appropriate to screen for varus posteromedial rotary instability? How is it performed?

Answer 18

• Gravity assisted varus stress test
• seated/standing w/ shoulder in 90* active abduction. Pt actively flexes/extends elbow. Positive with reproduction of symptoms such as clicking/grinding/popping, or pain

Question 19

What is a major drawback for the lateral pivot shift test?

Answer 19

• pts usually need to be under anesthesia. This is a dumb test.

Question 20

What does the lateral pivot shift test for? What is the general sequence of motions?

Answer 20

• tests for posterolateral rotary instability
• pt in supine, shoulder flexed past 90, elbow in extension. Therapist axially compresses towards humerus, provides valgus/supination force while flexing elbow. Elbow subluxes at ~40-70, then reduces with further flexion

Question 21

What are 3 tests other than the lateral pivot shift that are appropriate to screen for posterolateral rotary instability?

Answer 21

• push-up sign
• chair sign
• press up maneuver

Question 22

What test is appropriate to screen for RCL insufficiency? How is it performed?

Answer 22

• varus stress test
• Elbow in full extension, then flexed between 5-30*. Therapist applies varus force at varying angles. Positive if increased laxity compared to contralateral side.
• not sensitive enough for posterolateral rotary instability. Really only sensitive enough to pick up stage II disruption or > of the RCL

Question 23

When would it be expected to begin rehab for post-op posterolateral rotary insufficiency repair?

Answer 23

• probalby not earlier than 2 weeks. First two weeks the elbow is immobilized.
• however, can still do shoulder isometrics, manual work, or modalities

Question 24

What angle would the elbow be immobilized in for the first two weeks following post-op posterolateral rotary insufficiency?

Answer 24

• 45-90* flx in neutral or slight pronation

Question 25

When can a pt expect to get rid of their brace following posterolateral rotary instability repair?

Answer 25

• ~8 weeks. Will be progressively increasing extension from week 2-8. Brace typically has a block for extension.

Question 26

When can a pt expect to begin strengthening exercise at the elbow following posterolateral rotary instability repair?

Answer 26

• ~10 weeks, depending on pt’s symptoms

- may wait until week 16.

Question 27

When can a pt expect to return to sports following posterolateral rotary instability repair?

Answer 27

• 16 weeks at the earliest. May be up to 9 months.

Question 28

When is normal ROM expected following posterolateral rotary instability repair?

Answer 28

• ~8 weeks

Question 29

What are the primary movements to avoid/be careful with during posterolateral instability repair recovery?

Answer 29

• extension and supination

Question 30

What is standard differential dx for UCL insufficiency?

Answer 30

• medial tendinopathy
• posteromedial impingement by ulnohumeral compression
• radiocapitellar overload syndrome
• elbow OA
• ulnar neuritis

Question 31

Would a pt w/ UCL insufficiency describe more instability in pronation or supination?

Answer 31

• pronation; flexors relatively become lax, so lose a bit of secondary stability

Question 32

How long is the elbow immobilized following RCL repair?

Answer 32

• typically up to 2 weeks

Question 33

When can a pt expect to start AROM following RCL repair?

Answer 33

• ~4 weeks

Question 34

Can joint mobs be done 4 weeks out following RCL repair?

Answer 34

• yes, per this protocol; but only grade I or II for pain. I wouldn’t.

Question 35

When is a pt expected to have normal ROM following RCL repair?

Answer 35

• by 12 weeks

Question 36

When can strengthening at the elbow begin following RCL repair?

Answer 36

• 12 weeks; initially the elbow flexors with the forearm in pronation for the first 2 weeks

Question 37

When can a pt expect to return to sport following RCL repair?

Answer 37

• 16 weeks to 9 months

Question 38

What is the mechanism that creates valgus extension overload syndrome?

Answer 38

• compression of the olecranon against the humerus with valgus stress, generating a posteromedial impingement
• associated with “tremendous” forces acting on the elbow especially into hyperextension
• often associated with throwing athletes

Question 39

What can a clincian expect for presentation with valgus extension overload syndrome for:

• PROM
• AROM

Answer 39

• PROM: limited extension, flexion contraction and painful combined pronation, valgus force, and extension
• AROM: painful extension

Question 40

What complications may be associated with a valgus extension overload syndrome?

Answer 40

• locking/catching

- suggestive of chondromalacia, osteophytes, or loose bodies

Question 41

What is appropriate management for valgus extension overload syndrome?

Answer 41

• rest, NSAIDs, initially
• then correction of throwing mechanics; shoulder, core, etc
• local strengthening may target eccentrics for elbow flexors, and progressive power for triceps

Question 42

What syndrome may occur as a result of UCL insufficiency?

Answer 42

• radio-capitellar overload syndrome (lateral compression injury)
• chronic abutment of radial head against the capitellum

Question 43

What is typical presentation for a pt w/ a lateral compression injury?

Answer 43

• TTP at radial head or tip of distal lateral humerus

Question 44

What is a potential complication from a chronic lateral compression injury?

Answer 44

• in adults, chondromalacia, cartilage/bony degeneration

- in kids, osteochondritis dessicans

Question 45

What is the biggest risk factor for child/adolescent development of “little leaguer’s elbow”?

Answer 45

• number of pitches thrown

Question 46

When is operative management of a UCL injury usually required?

Answer 46

• in conjunction with a displaced fx.

- if non-displaced fx, usually managed non-operatively

Question 47

What is the test with the best statistics when screening for UCL insufficiency?

Answer 47

• moving valgus stress test (spec: 1.0, sens: .75); others don’t have validity research behind them
• pt upright with shoulder in 90* abduction and elbow maximally flexed. Add modest valgus torque to elbow until end range ER, then quickly extend to ~30* of elbow flexion
• positive if medial elbow pain is reproduced AND maximal pain is between 120-70* elbow flexion

Question 48

What ROM should produce maximal provocation of symptoms during the moving valgus stress test?

Answer 48

• 120-70*

Question 49

What is execution of the valgus stress test? What is it best for screening?

Answer 49

• elbow in full extension, then 5-30* flexion with modest valgus force. Assessing gapping/pain on the medial elbow. Compare laxity to CL side.
• best for assessing insufficiency of the anterior band of the UCL.

Question 50

Why is the position of slight flexion used for varus/valgus stress tests?

Answer 50

• slight elbow flexion reduces the influence of bony stabilizers and the capsule for stability

Question 51

What are the outcomes for pts with non-operative management of UCL rupture?

Answer 51

• fairly successful for non-athletes
• throwing athletes may not return to prior levels of competition depending on the severity of injury with non-operative management

Question 52

In general, what is agreed upon as an important factor for elbow instability rehab?

Answer 52

• shoulder strengthening…sweet

- another significant component mentioned throughout the chapter is core stability/integrated mechanics

Question 53

What ROM limitation in baseball pitchers was associated with elbow symptoms?

Answer 53

• limited IR >25*. When addressed, improved elbow symptoms

Question 54

A “Tommy Johns” surgery is a reconstruction of what ligament?

Answer 54

• UCL

Question 55

What’s the difference between a primary repair of the UCL and a reconstruction?

Answer 55

• primary repair uses the existing UCL

- reconstruction is Tommy Johns, or updated variant using the flexor-pronator mass

Question 56

What is the expectation for ROM immobilization following UCL reconstruction?

Answer 56

• likely first 2 weeks, with hinged brace to faciltiate gradual ROM increases afterward

Question 57

How soon can a pt begin strengthening after a UCL reconstruction? When can they expect to begin throwing again? Return to sport?

Answer 57

• 4-6 weeks post-op
• interval throwing won’t begin until at least 4 months post-op
• return to sport is 9-12 months post-op

Question 58

The elbow is the _____ most commonly dislocated joint in adults.

Answer 58

• 2nd

Question 59

What is the most common direction for elbow dislocation?

Answer 59

• posterolateral or posterior

Question 60

What is the most common mechanism of elbow dislocation?

Answer 60

• FOOSH

Question 61

What are some concerns to screen for with an elbow dislocation?

Answer 61

• fracture

- nerve injury

Question 62

What nerve(s) are most injured with a simple dislocation vs a complex dislocation?

Answer 62

• simple: ulnar and median

- complex: radial

Question 63

A pt comes in following what was dx’d as a simple elbow dislocation, which was reduced in the ED, but they’re still having some discomfort. A recent radiograph shows a ulnohumeral distance of 5mm. Is this a concern?

Answer 63

• simple elbow dislocation is managed non-operatively, and typically reduced in the ED.
• an ulnohumeral distance of >4mm is indicative of continued elbow instability

Question 64

What are the considerations for bracing vs mobilization following simple elbow dislocation?

Answer 64

• for a stable elbow joint, bracing would be inappropriate, and immediate functional mobility is recommended
• if unstable, a brace or cast could be appropraite, but immobilization for >14 days increases the risk of stiffness

Question 65

For simple dislocations that are stable after reduction, what is the expected timeline for progression of activities?

Answer 65

• immediate mobilization is typically appropriate, with sling use as necessary
• aerobic exercise involving the UE can begin ~4 days later
• strengthening can begin 7 days later
• recommendations based on military population

Question 66

With a disloaction where there is continued instability, what are the expectations for ROM?

Answer 66

• will limit elbow extension to ~60, increasing by 10 each week

Question 67

What would you want to see prior to beginning strengthening following a simple dislocation with instability?

Answer 67

• full ROM

Question 68

With an RCL deficient elbow, ________ of the forearm should increase stability, while with a UCL deficient elbow, _______ of the forearm should increase stability.

Answer 68

• pronation for RCL deficient

- supination for UCL deficient

Question 69

How soon should you be worried about deficient ROM following a simple dislocation? What is recommended?

Answer 69

• would want to see normal ROM within 6 weeks

- can use a hyperextension elbow brace for 9 months to a year at night

Question 70

What is the focus of rehab following operative management of a simple dislocation?

Answer 70

• focus is to protect healing structures

- ROM can begin w/in 7-10 days in protected postures

Question 71

What are outcomes like following simple dislocation?

Answer 71

• typically very good. 95% return to previous occupations

Question 72

What defines a complex elbow dislocation?

Answer 72

• extensive soft tissue injury in addition to a fracture

Question 73

What is the “terrible triad” of a complex elbow dislocation?

Answer 73

• elbow dislocation
• radial head fx
• coronoid fx

Question 74

What is standard treatment for a complex elbow dislocation?

Answer 74

• reduction
• fx fixation
• establishing a stable arc of motion (60*-full flx)
• if unable to establish the stable arc of motion, other procedures such as ligament repair/reconstruction need to happen

Question 75

What 3 things would raise suspicion of elbow fx?

Answer 75

• hx of trauma
• fat pad sign (effusion over the posterior aspect of the elbow)
• inability to fully extend the elbow

Question 76

With a complex fx, how quickly should the pt have surgery for fixation

Answer 76

• recommended w/in 24 hours

Question 77

What is the general healing time for bones in an adult?

Answer 77

• 12-16 weeks

Question 78

What are two considerations for post-op fx management for PT in terms of interventions?

Answer 78

• swelling management; manual lymphatic drainage or K taping

- early ROM to prevent elbow stiffness

Question 79

What are common complications of elbow fractures? (5)

Answer 79

• elbow stiffness
• instability
• non-union
• post traumatic arthrosis
• heterotopic ossifications

Question 80

Olecranon fractures are common in which demographic?

Answer 80

• the elderly

Question 81

What are characteristics of the most common type of olecranon fracture?

Answer 81

• displaced fracture where the UCL remains intact
• disrupts triceps function
• the displaced fracture is intraarticular

Question 82

What are the two common surgical interventions for olecranon fx?

Answer 82

• bony fragment excision with triceps repair
• ORIF
• similar outcomes with both, but > potential for complications with the ORIF

Question 83

Radial head fxs are more common in what demographic?

Answer 83

• female

- 20-60 yo

Question 84

What are the 3 common mechanisms for radial head fx?

Answer 84

• axial load on pronated forearm
• direct blow to elbow
• hyperflexion injury

Question 85

A pt comes in after falling in a way where she felt like her elbow was bent too far. She’s got significant TTP at the lateral elbow. What may be of concern?

Answer 85

• radial head fx

Question 86

What are the 4 types of radial head fracture per the Mason Johnson classification?

Answer 86

• Type I: undisplaced fx
• Type II: large, displaced fx
• Type III: comminuted fx
• Type IV: fx associated with dislocation

Question 87

What is the typical duration/position of immobilization if needed following a radial head fx?

Answer 87

• usually 3 weeks or less to avoid complications

- full extension rather than flexion to improve ROM

Question 88

Are outcomes for simple vs complex radial head fx managed with ORIF the same?

Answer 88

• not clear
• some research shows that complex will result in poorer outcomes, but another 11 year retrospective study didn’t find a difference

Question 89

When is radial head excision appropriate or not?

Answer 89

• if the UCL is intact, radial head excision will have little effect on stability
• if the UCL is not intact, it’s not a good idea
• if going to excise, should occur within the first 24 hours to 10 days

Question 90

When is radial head replacement indicated?

Answer 90

• Mason Johnson Type IV radial head fractures
• concurrent UCL or RCL dysfunction with instability
• coronoid fx with fragmentation involving >50% of the coronoid (Type III)

Question 91

What’s the common demographic/MOI for a capitellum fx?

Answer 91

• usually young male with high impact trauma or elderly with low/moderate impact

Question 92

Are isolated coronoid fxs common? What is the proposed mechanism for an isolated coronoid fx?

Answer 92

• they are not common; part of the “terrible triad”, or part of varus posteromedial instability
• theorized MOI is an axial load with 0-20* elbow flx; increased flx engages the radial head, which would likely be injured as well. These are high energy injuries

Question 93

What should be avoided during early ROM for a complex coronoid fx following surgical stabilization?

What amount of elbow flexion can the pt expect to get back?

Answer 93

• avoid varus forces during early ROM

- ~110* flx can be expected

Question 94

What are the more common complications following elbow trauma? (6)

Answer 94

• elbow stiffness
• heterotopic ossificans
• complex regional pain syndrome
• neural injury
• arterial injury
• compartment syndrome

Question 95

What is the differentiation between intrinsic and extrinsic elbow stiffness?

Answer 95

• extrinsic is due to any tissue that is outside of the joint (skin, muscle, capsule, ligaments, heterotopic ossificans)
• intrinsic would be any intraarticular structures, joint congruency, and articular surface degeneration
• most elbow stiffness would be a combination of both

Question 96

What is the typical presentation for elbow stiffness?

Answer 96

• loss of extension w/ mild/moderate pain
• likely supination/pronation are affected, but can remain intact in some cases
• ulnar neuritis is a commonly associated diagnosis

Question 97

With treatment for elbow stiffness, when trying to improve PROM, what is a primary concern?

Answer 97

• stretching/mobs should be gentle
• potential to develop heterotopic ossificans with more aggressive stretching
• aggressive manipulation may cause capsular tearing and increased loss of motion

Question 98

What are useful adjuncts to manual therapy when treating elbow stiffness?

Answer 98

• splints, braces, etc to improve ROM (e.g., turn-buckle, or dynamic hinge brace)

Question 99

When is surgical release appropriate for elbow stiffness/loss of ROM?

Answer 99

• with chronic symptoms for up to 12 months with loss of functional ROM

Question 100

Following release for elbow contracture (elbow stiffness), how long can a pt expect to make gains to ROM?

Answer 100

• can make gains for up to 6 months post-op

Question 101

For most elbow surgeries, what nerve is most likely impacted with complications?

Answer 101

• ulnar n.

Question 102

Is heterotopic ossificans (HO) more likely at the hip or the elbow?

What is the rate of HO with fracture/dislocation at the elbow?

Answer 102

• more frequently reported at the hip, however the elbow is at greater risk to develop HO
• rates reported as high as 56% following elbow fx or dislocation

Question 103

What are the most common locations for HO to develop in the elbow?

Answer 103

• between the brachialis and anterior capsule

- between the triceps and posterior capsule

Question 104

What is the standard presentation for heterotopic ossificans?

Answer 104

• pain with progressive loss of ROM

Question 105

How early can HO be picked up in imaging?

Answer 105

• 5th week with plain films

- 2nd week with bone scan

Question 106

What is often in the differential for HO at the elbow?

Answer 106

• septic arthritis
• infection
• thrombophlebitis
• CRPS

Question 107

What is the primary aim of PT management for HO at the elbow?

Answer 107

• prevention of a permissive environment for HO development; i.e., decreasing risk of excessive inflammation
• interventions like CPROM, AAROM, education re: avoiding pain during activities

Question 108

What is the predominant feature of CRPS?

Answer 108

• pain that is disproportionate to the injury

- Also, autonomic, sensory, and motor impairments that develop through the course of CRPS

Question 109

What age/genders are more likely to be dx’d w/ CRPS? Is is more likely in the UE or the LE?

Answer 109

• more likely in females, typically ~40yo

- ~2x more likely in the UE

Question 110

What is the difference between CRPS I and II?

Answer 110

• CRPS I is associated with a minor injury such as sprain, strain, fx, or surgery
• CRPS II is associated with a known nerve injury prior to onset of symptoms

Question 111

What is the theorized pathophysiology behind CPRS?

Answer 111

• not well understood
• thought to be multifactorial, with dysfunction in the sympathetic nervous system, somatic sensory nervous system, an exaggerated inflammatory response, hypoxia in the integumentary system, and potential psychosocial overlay

Question 112

What are the 3 stages of CRPS?

Answer 112

• they all overlap, but:
• acute inflammation
• dystrophy
• atrophy

Question 113

What is the presentation for CRPS? What can be expected?

Answer 113

• intractable pain in a nonperipheral nerve distribution
• edema with sensory and motor changes in the area
• hyperalgesia, hyperpathia, and allodynia may be present
• may have increased hair or nail growth
• glossy, thin appearance to skin (dystrophic stage)
• skin becoming thin, dry, and cyanotic (atrophic stage)

Question 114

What are some key interventions for CRPS?

Answer 114

• desensitization
• graded motor imagery
• isometric exercises
• postural correction
• ROM
• intervention must be individually tailored