Orthopaedics - shoulder & arm

Question 1

What is adhesive capsulitis?

Answer 1

Glenohumeral joint capsule becomes contracted and adherent to the humeral head
Can result in shoulder pain and a reduced range of movement in the shoulder
More common in women, peak onset is between 40-70 years old

Question 2

Describe clinical features of adhesive capsulitis

Answer 2

Generalised deep and constant pain of the shoulder (often disturbs sleep)
Joint stiffness, reduction in function
Examination – loss of arm swing, atrophy of the deltoid muscle, generalised tenderness on palpation
Limited range of motion – principally affecting external rotation and flexion of the shoulder

Question 3

List the differential diagnosis of adhesive capsulitis

Answer 3

Acromioclavicular pathology
Subacromial impingement syndrome
Muscular tear
Autoimmune disease

Question 4

List investigations done for adhesive capsulitis

Answer 4

Diagnosis is typically a clinical one
Plain film radiographs – generally unremarkable, rule out other causes
MRI imaging – reveal thickening of the glenohumeral joint capsule
More common in diabetic patients

Question 5

Describe the management of adhesive capsulitis

Answer 5

Self-limiting condition however recurrence is not uncommon
Initial management – involves education and reassurance, patients should be encouraged to keep active & physiotherapy
Simple analgesics & glenohumeral joint corticosteroid injections may be considered for those patients failing to improve
Surgical intervention – joint manipulation under general to remove capsular adhesions to the humerus, arthrogaphic distension/surgical release of the glenohumeral joint capsule

Question 6

What is biceps tendinopathy?

Answer 6

Tendinopathy = used to encompass a variety of pathological changes that occur in tendons, typically due to overuse -> results in a painful, swollen and structurally weaker tendon that is risk of rupture
Can occur in both the proximal and distal bicep tendons – common in younger active individuals & older individuals with more of a degenerative tendinopathy

Question 7

Describe the clinical features of biceps tendinopathy

Answer 7

Pain made worse with stressing the tendon, associated with weakness and stiffness
Examination – patient will demonstrate tenderness over the affected tendon, may be loss of muscle bulk due to disuse atrophy

Question 8

List the special tests that can be performed specifically for biceps tendinopathy

Answer 8

Speed test (proximal biceps tendon) – patient stands with their elbows extended & their forearms supinated. They then forward flex their shoulders against the examiners resistance
Yergason’s test (distal biceps tendon) – patient stands with their elbows flexed to 90 degrees and their forearm pronated. Actively supinate against the examiners resistance

Question 9

List investigations for biceps tendinopathy

Answer 9

Largely clinical
Blood tests and plain film radiographs can be undertaken as first line investigations, exclude other differentials

Question 10

Describe the management of biceps tendinopathy

Answer 10

Majority – treated conservatively, with the use of analgesia & ice therapy as first line
Physiotherapy
USS steroid injections can be useful in cases unresponsive to initial conservative management

Question 11

List risk factors for bicep tendon rupture

Answer 11

Previous episodes of biceps tendinopathy
Steroid use
Smoking
Chronic kidney disease
Use of fluoroquinolone antibiotics

Question 12

Describe clinical features of biceps tendon rupture

Answer 12

Sudden onset pain and weakness at the affected area
Patient often report the feeling of a pop during the incident
Examination – marked swelling and bruising in the antecubital fossa, ‘reverse popeye sign’

Question 13

What is the hook test (for potential distal tendon rupture)?

Answer 13

Elbow is actively flexed to 90 degrees and fully supinated, the examiner attempts to hook their index finger underneath the lateral edge of the biceps tendon

Question 14

List investigations for bicep tendon rupture

Answer 14

Can be diagnosed clinically
Confirmation obtained via ultrasound imaging
If USS inconclusive, an MRI scan may be warranted to further assess

Question 15

Describe the non-operative management of biceps tendon rupture

Answer 15

For lower demand patients, a conservative approach may be most suitable
Analgesia and physiotherapy form the mainstay of conservative management, often allowing for significant recovery of muscle strength and function

Question 16

Describe the operative management of biceps tendon rupture

Answer 16

An anterior single incision or a dual incision technique will be required
Operation involves forming a bone tunnel in the radius and re-inserting the ruptured tendon end
Surgical repair should occur within a few weeks of initial injury, otherwise tendon will retract and scar (reconstruction with tendon allograft is therefore often required)
Main complications: injury to lateral antebrachial cutaneous nerve, posterior interosseous nerve or radial nerve

Question 17

Describe the classification of clavicle fractures

Answer 17

Allman classification system
Type I – fracture of the middle third of the clavicle
Type II – fracture involving the lateral third of the clavicle
Type III – fracture in the medial third of the clavicle, commonly associated with multi-system polytrauma

Question 18

Describe pathophysiology of clavicle fractures

Answer 18

Will occur through either a direct/indirect mechanism of injury
Medial fragment will often displace superiorly due to the pull of SCM
Lateral fragment will displace inferiorly from the weight of the arm

Question 19

Describe the clinical features of clavicle fractures

Answer 19

Sudden-onset localised severe pain, made worse on active movement of the arm
Examination – focal tenderness, with deformity and mobility at the fracture site

Question 20

List investigations for clavicle fractures

Answer 20

Plain film anteroposterior and modified-axial radiographs of affected clavicle
CT (rarely indicated) – may be needed to assess medial clavicle injuries

Question 21

Describe non-operative management of clavicle fractures

Answer 21

Most can be treated conservatively
Initial treatment – with a sling, which should be properly applied so that elbow is well supported & improves the deformity (generally kept on until the patient regains pain-free movement of the shoulder)
Early movement of shoulder joint is recommended (to prevent frozen shoulder)

Question 22

Describe surgical management of clavicle fractures

Answer 22

All open fractures will need surgical intervention
Remainder – reserved for very comminuted fractures or those that are very shortened, bilateral fractures
Fractures that have failed to unite – open-reduction internal-fixation (ORIF) will be necessary 2-3 months post-injury

Question 23

List complications of clavicle fractures

Answer 23

Non-union (most associated with distal third clavicular fractures)
Neurovascular injury
Any puncture (haemothorax or pneumothorax)

Question 24

Describe a humeral shaft fracture

Answer 24

Bimodal distribution – younger patients due to high energy trauma & elderly patients following low impact injuries
Can also occur as pathological fractures

Question 25

Outline the clinical features of a humeral shaft fracture

Answer 25

Pain and deformity
Radial nerve involvement – reduced sensation over the dorsal 1st webspace & weakness in wrist extension
Examination – check & document neurovascular status, assess for open wounds

Question 26

What is a Holstein-Lewis fracture?

Answer 26

Fracture of the distal third of the humerus resulting in the entrapment of the radial nerve
Resultant neuropraxia to the radial nerve will result in loss of sensation & a wrist drop deformity
Urgent surgical management is indicated

Question 27

List investigations of humeral shaft fracture

Answer 27

Anteroposterior (AP) and lateral plain film radiographs of the humerus
Severely comminuted cases – CT imaging may be requested

Question 28

Describe the non-operative management of humeral fractures

Answer 28

Mainstay – re-alignment of the limb & majority can be treated conservatively in a functional humeral brace
Suitable for conservative management - < 20 degrees anterior angulation, <30 degrees varus/valgus angulation & with <3cm of shortening

Question 29

Describe the surgical management of humeral fractures

Answer 29

Typically involves open reduction and internal fixation (ORIF) with a plate
Intramedullary nailing may be indicated in the presence of pathological fractures, polytrauma or severely osteoporotic bones

Question 30

List complications of a humeral shaft fracture

Answer 30

Non-union and mal-union are important complications
Around 90% of radial nerve injuries will improve within 3 months any intervention

Question 31

Describe the classification of rotator cuff tears

Answer 31

Classified as either acute (<3 months) or chronic (>3 months), either partial thickness or full thickness tears
Full thickness tears can be further classified into small, (<1cm), medium (1-3cm), large (3-5cm) or massive (>5cm or involves multiple tendons) tears

Question 32

List the actions of the different rotator cuff muscles

Answer 32

Supraspinatus – abduction
Infraspinatus – external rotation
Teres minor – external rotation
Subscapularis – internal rotation

Question 33

Describe the pathophysiology of rotator cuff tears

Answer 33

Acute tears – occur in tendons with pre-existing degeneration, typically occurring alone following minimal force
Chronic tears – occur in individuals with degenerative microtears to the tendon

Question 34

List risk factors for rotator cuff tears

Answer 34

Age
Trauma
Overuse
Repetitive overhead shoulder motions
Obesity, smoking & diabetes mellitus

Question 35

Outline the clinical features of rotator cuff tears

Answer 35

Pain over the lateral aspect of the shoulder
Inability to abduct the arm above 90 degrees
Examination – tenderness over the greater tuberosity & subacromial bursa regions

Question 36

Describe the specific tests of rotator cuff muscles

Answer 36

Jobe’s tests (tests supraspinatus) – place the shoulder in 90 degree abduction and 30 degree of forward flexion and internally rotate fully, gently push downwards on the arm
Gerber’s lift-off test (tests subscapularis) – internally rotate the arm so the dorsal surface of hand rests on lower back, then ask the patient to life hand away from back against examiner resistance
Posterior cuff test (tests infraspinatus and teres minor) – the arm positioned at patient’s side, with the elbow flexed to 90 degrees, then the patient is instructed to externally rotate their arm against resistance

Question 37

List investigations for rotator cuff muscles

Answer 37

Should have an urgent plain film radiograph to exclude a fracture
Once fracture has been excluded, use ultrasonography to establish the presence & size of tear, whilst MRI imaging can be used to detect the size, characteristics & location of the tear

Question 38

Describe conservative management of rotator cuff tears

Answer 38

Preferred in patients who are not limited by pain/loss of function
Presenting within 2 weeks since injury can be managed conservatively – analgesia & physiotherapy with activity modification

Question 39

Describe surgical management of rotator cuff tears

Answer 39

Presenting 2 weeks since the injury/remaining symptomatic despite conservative management
Repairs can be done arthroscopically or via open approach

Question 40

Name the main complication of rotator cuff tears

Answer 40

Adhesive capsulitis

Question 41

Compare anterior vs posterior dislocation of the shoulder

Answer 41

Anterior dislocation – caused by force being applied to an extended, abducted and external rotated humerus
Posterior dislocation – typically caused by seizures or electrocution, but can occur through trauma (a direct blow to the anterior shoulder/force through a flexed adducted arm)

Question 42

List the clinical features of shoulder dislocations

Answer 42

Painful shoulder, acutely reduced mobility & feeling of instability
Examination – an asymmetry with the contralateral side, loss of shoulder contours and an anterior bulge from the head of the humerus

Question 43

Describe the associated injuries of shoulder dislocations

Answer 43

Bony:
-bony barkart lesions: fractures of the anterior inferior glenoid bone, most commonly present in those with recurrent dislocations
-hill-sachs defects: impaction injuries to the chondral surface of the posterior and superior portions of the humeral head
-fractures of the greater tuberosity & surgical neck of humerus can also occur
Labral, ligamentous and rotator cuff:
-soft bankart lesions: avulsions of the anterior labrum and inferior glenohumeral ligament
-glenohumeral ligament avulsion
-rotator cuff injuries

Question 44

List the investigations for shoulder dislocations

Answer 44

Plain radiographs: at least 2 views performed (AP, Y-scapular and/or axial views)
MRI of shoulder may be useful for soft tissue injuries

Question 45

Describe the x-ray findings for different shoulder dislocations

Answer 45

Anterior – humeral head is completely displaced out of glenoid fossa
Posterior – ‘light bulb sign’ = as the humerus is fixed in internal rotation
Y view is very useful for differentiating between anterior and posterior dislocations

Question 46

Describe the management of shoulder dislocations

Answer 46

A to E trauma assessment
Appropriate analgesia
Principle – reduction, immobilisation and rehabilitation (a closed reduction, such as Hippocratic method, should be performed by a trained specialist)
Once reduced, the arm should be performed be placed in to a broad-arm sling (typically 2 weeks with early physiotherapy)

Question 47

List complications of shoulder dislocations

Answer 47

Chronic pain
Limited mobility
Stiffness
Recurrence
Adhesive capsulitis, nerve damage & rotator cuff injury
Degenerative joint disease

Question 48

What is the most common site of a shoulder fracture?

Answer 48

Proximal humerus

Question 49

Describe the aetiology of proximal humeral fractures

Answer 49

Low energy injuries occurring in elderly patients FOOSH – occurs primarily in the context of an osteoporosis
Younger patients as a result of high energy traumatic injury

Question 50

List risk factors for low energy proximal humerus fractures

Answer 50

Female gender
Early menopause
Prolonged steroid use
Recurrent falls
Frailty

Question 51

Describe the clinical features of proximal humerus fractures

Answer 51

Pain around the upper arm and shoulder with restriction of arm movement & inability to abduct their arm
Examination – likely to be significant swelling & bruising of the shoulder
Important to check axillary nerve & circumflex vessels: loss of sensation in the lateral shoulder & loss of power of the deltoid muscle

Question 52

List investigations of proximal humerus fractures

Answer 52

Urgent bloods
Plain film radiographs – AP, lateral scapular & axillary views are all required
CT scan – can be used for preoperative planning

Question 53

What classification system is used for proximal humeral fractures?

Answer 53

Neer classification system – based on the relationship between 4 main segments:
1) Greater tuberosity
2) Lesser tuberosity
3) Articular segment
4) Humeral shaft
Considered a separate part if there is displacement > 1cm or 45 degrees angulation

Question 54

Describe the management of proximal humeral fractures

Answer 54

Majority can be managed conservatively
Patient requires immobilisation initially with early mobilisation inc. pendular exercises at 2-4 weeks post injury (must have a correctly applied polysling that allows their arm to hang)

Question 55

Describe the surgical management of proximal humeral fractures

Answer 55

Surgical fixation – displaced, open or neurovascularly compromised fractures
Patients with multiple segment injuries may be managed with ORIF/intramedullary nailing
Hemiarthroplasty – can be performed in a small number of patients who experience complex injuries
Reverse shoulder arthroplasty – option for low demand patients (ball and socket portions of the shoulder joint are reversed)

Question 56

List complications of a proximal humeral fracture

Answer 56

Reduced range of motion
Avascular necrosis of the humeral head

Question 57

What is subacromial impingement syndrome (SAIS)?

Answer 57

Refers to the inflammation and irritation of the rotator cuff tendons as they pass through the subacromial space
Most commonly occurs in patients < 25 years, typically in active individuals or in manual professions

Question 58

Describe the pathophysiology of subacromial impingement syndrome

Answer 58

Intrinsic mechanisms – involve pathologies of the rotator cuff tendons due to tension:
1) Muscular weakness
2) Overuse of the shoulder
3) Degenerative tendinopathy
Extrinsic mechanisms – pathologies of the rotator cuff tendons due to external compression:
1) Anatomical factors
2) Scapular musculature
3) Glenohumeral instability

Question 59

Describe the clinical features & examination findings of SAIS

Answer 59

Progressive pain in the anterior superior shoulder, classically exacerbated by abduction
Neers impingement test – arm is fully internally rotated & then passively flexed: is positive if there is pain in the anterolateral aspect of the shoulder
Hawkins test – shoulder & elbow are flexed to 90 degrees, with examiner stabilising the humerus and passively internally rotating the arm: is positive if pain in the anterolateral aspect of the shoulder

Question 60

List differential diagnoses of SAIS

Answer 60

Muscular tear
Neurological pain
Frozen shoulder syndrome
Acromioclavicular pathology

Question 61

List investigations for SAIS

Answer 61

Clinical diagnosis, often confirmed via additional imaging
MRI imaging

Question 62

Describe the conservative management of SAIS

Answer 62

Sufficient analgesia, regular physiotherapy
Corticosteroid injections in the subacromial injections

Question 63

Describe the surgical intervention of SAIS

Answer 63

SAIS persists beyond 6 months without response to conservative management -> surgical management:
1) Surgical repair of muscular tears
2) Surgical removal of the subacromial bursa
3) Surgical removal of a section of the acromion

Question 64

List the complications of SAIS

Answer 64

Rotator cuff degeneration & tear
Adhesive capsulitis
Cuff tear arthropathy
Complex regional pain syndrome