Shoulder

Question 1

what are the four joints at the shoulder complex

Answer 1

• glenohumeral joint
• acromioclavicular joint
• sternoclavicular joint
• scapulothoracic joint

Question 2

what is the name of the shoulder joint?

Answer 2

• glenohumeral joint

- ball and socket joint

Question 3

scapulothoracic joint

Answer 3

• important
• physiologic joint
• no synovial joint
• articulation between subscapularis and serratus anterior muscles
• shoulder and rib cage

Question 4

Rotator Cuff Muscles

Answer 4

SITS- all originate on scapula and insert on humerus

• Supraspinatus (abduction)
• Infraspinatus (external rotation)
• Teres minor (external rotation)
• subscapularis (internal rotation)

Question 5

Function of Rotator Cuff/Muscles

Answer 5

• centre the head of the humerus within the glenoid fossa

Question 6

Scapulothroacic Joint - Surface Anatomy

Answer 6

• acromion of scapula should be at T2
• c7 is the first bony bump we often feel
• you can count down 2 processes from c7 to get T2
• scapula should be at height of acromion, if it is higher or lower it is in an abnormal position
• nip line is T4

Question 7

Points of reference for scapula (vertebral levels)

Answer 7

T2- top of scapula
T3/T4- spine scapula
T7- ending; inferior angle

Question 8

4 Point Palpation Technique (on right scapula); Left Hand

Answer 8

• thumb on inferior angle of scapula
• index finger on medial end of spine of scapula
• if the thumb on left hand is sticking out or if fourth finger is downward compared to third finger (anterior tilting)

Question 9

4 Point Palpation Technique (on right scapula); right hand

Answer 9

• thumb on poster-lateral corner of acromion

- index finger on the anterolateral acromion

Question 10

Scapular Anatomy: superficial

Answer 10

• well defined, you will see trapezius and upper fibres of traps on nearly everyone
• deltoid (anterior, middle and posterior)

Question 11

Scapular Anatomy; most aggravated?

Answer 11

• levator scapulae and rhomboids.
• levator scapulae tends to get tight on people and often cause headache referral- there is a pressure point that can help
• they carry stress from shoulders and poor ergonomics
• rhomboids become dysfunctional from being too long and stretched out from forward shoulder position
  and they are responsible from retracting scapula

Question 12

what shoulder has the most muscles crossing? how much?

Answer 12

• scapular thoracic joint; 17 muscles attach and across here

Question 13

6 movements of scapula

Answer 13

• elevation/depression
• protraction/retraction
• upward/downward rotation

Question 14

muscles involved in scapular elevation

Answer 14

• upper trapezius
• rhomboids
• levator scapulae

Question 15

muscles involved in scapular depression

Answer 15

• lower trapezius

- lower serratus anterior

Question 16

muscles involved in scapular protraction (abduction)

Answer 16

• serratus anterior

- pectoralis minor

Question 17

muscles involved in scapular retraction (adduction)

Answer 17

• trapezius

- rhomboids

Question 18

muscles involved in upward rotation (lateral) of scapula

Answer 18

• serratus anterior
• upper trapezius
• lower trapezius

Question 19

muscles involved in downward rotation(medial)

Answer 19

• rhomboids
• levator scapulae
• pectoralis minor

Question 20

Scapulohumeral Rhythm

Answer 20

• difficult to asses compared to static
• looks at how they all work together
• ## coordinated movements between scapula, humerus and clavicle

Question 21

Full Range of Motion in Shoulder Complex

Answer 21

Motion in ST joint, GH, AC, and SC joints

Question 22

Natural Rhythm Ratio

Answer 22

• between GH and ST joints is 2:1
• for every 2 degrees of movement coming from GH joint, 1 degree is coming from ST joint
• ex; 180 degrees abduction= 120 degrees GH abduction + 60 degrees of ST upward rotation
• 60 x 2 is 120 degrees; makes up the 2:1 ratio

Question 23

Setting Phase: (0-30 degrees GH abduction/felxion)

Answer 23

• scapula is stationary
• all movement is coming from GH joint
• clavicle is 0-5 degrees elevation
• set scapula where it does not move and we have pure movement from GH joint, little elevation of clavicle but humerus does most of the work

Question 24

Middle Phase: (30-90 degrees)

Answer 24

• 2:1 GH:ST movement- full ROM is 90 degrees from straight vertical to straight horizontal (2/3 movement come from GH)
• clavicle: 15 degrees elevation
• 60 degrees of GH is 30 decrees is ST; increased elevation of clavicle so it can move out of the way while we go overhead

Question 25

Terminal Phase (90-180 degrees)

Answer 25

• 2:1 GH:ST movement
• humerus externally rotates 90 degrees
• clavicle: 15 degrees elevation, 30-50 degrees posterior rotation

Question 26

Shoulder Impingement

Answer 26

• most common disorder of shoulder accounting for 44-65% of all companies of shoulder pain
• impingement= pressure on a tissue found within confined space (subacromial space)
• repetitive impingement may result in soft tissue inflammation (bursitis) or injury (rotator cuff tear)
• sub acromial space is approx 5-8mm

Question 27

Shoulder Impingement: Clinical presentation

Answer 27

• pain is worse with arm elevation and overhead activities
• pain is typically localized to the anterolateral acromion and frequently radiates to the lateral mid-humerus; pain happening at shoulder radiating down

Question 28

Types of Pain With Shoulder Impingement

Answer 28

• inflammatory pain: pain at night
• mechanical pain (laying on tissue itself)
• pain with overhead

Question 29

Causes of Shoulder Impingement

Answer 29

• rotator cuff weakness/pathology
• bicep pathology (SLAP lesion) - superior labrum tear from anterior to posterior
• acromial morphology; abnormalities where you may have more or less rrom
• muscle imbalance (if upward rotators are weak and downward rotators are strong)
• capsular laxity or tightness
• dysfunctional glenohumeral and scapulothoracic kinematics
• degeneration and inflammation of the tendons or bursa

Question 30

Types of Shoulder Impingement: External

Answer 30

• mechanical encroachment of soft tissue structures (bursa, rotator cuff tendons) between humeral head and acromial arch

Question 31

Types of Shoulder Impingement: Internal

Answer 31

• encroachment of rotator cuff tendons between humeral head and glenoid rim
  1. anterior impingement: entrapment of subscapularis
  2. posterosuperior impingement: entrapment of supra- and Infraspinatus

Question 32

External Impingement:

Answer 32

• subacromial space, bursa and Supraspinatus all in subacromial space
• impingement is inflammation of tendon, this will occupy more space, or inflammation of bursa
• when we go to abduction we get compression of striations in that space

Question 33

Internal Impingement (anterosuperior)

Answer 33

• subsacpularis, Supraspinatus and with shoulder flexion and internal rotation we get impingement of Supraspinatus between glen drum and head of humerus
• passive test: bring them into these motions and test for sharp pain

Question 34

Internal Impingement: posterosuperior

Answer 34

• impingement of Infraspinatus between glenoid rim and head of humerus
• from external rotation and abduction like overhead throwing

Question 35

Supraspinatus tear

Answer 35

• Supraspinatus is the smallest of the 4 RC muscles
• most commonly injured/torn
• poorly vascularized

Question 36

Why is Supraspinatus Susceptible to Tears?

Answer 36

• impingement: anatomic design of subacromial space
• hypovascularity in distal 1.5cm of tendon–> not blood in there so more susceptible to injury and not good healing
• mechanical disadvantage
• usually preceded by history of inflammation, micro-tearing, muscle weakness, sub scapular dyskinesias (abnormal moving)
• micro-tearing-stress risers > weakness, altered mechanics

Question 37

Mechanics of Supraspinatus: Action

Answer 37

• initiates abduction (~0-20degrees) until the deltoid can take over
• braces the head of humerus firmly against the glenoid fossa and prevents upward shearing of humeral head-locks down and centres within humerus
• concavity depression -compressive force

Question 38

Supraspinatus: Mechanically Disadvantaged

Answer 38

• class 3 lever
• force is applied on inside of load sow we have short moment arm and this results in more force than the load and we have to work harder than the weight of the shoulder
• deltoid has long moment arm so force it produces is times by the long distance or lever so it can produce more force
• short moment arm due to insertion of tendon on greater tuberosity (as compared to iteration of deltoid tuberosity lower on the humerus)

Question 39

Treatment of Supraspinatus Tear: Education

Answer 39

• posture +++- lifting and sitting postures to open up sub-acromial space
• inflammation management (i.e., icing, rest, elevation and NSAIDs)
• avoidance of aggravating positions (i.e., overhead activities, side-sleeping)

Question 40

Treatment of Supraspinatus Tear: Exercise

Answer 40

• restore ROM
• strengthening of upward rotators (UFT, SA, LFT)
• stretching downward rotators (lev scap, pec minor)

Question 41

Treatment of Supraspinatus Tear: Manual Therapy

Answer 41

• scapulothroacic mobilizations (upward rotation, retraction, posterior tilt)
• inferior GH glide, if we don’t have glide, we we get impingement so we want to encourage this glide

Question 42

Treatment of Supraspinatus Tear: Surgery

Answer 42

• acromioplasty

- rotator cuff repair

Question 43

Glenohumeral Instability: Acute Subsystem

Answer 43

• rotator cuff- centre the head of humerus

- scapular stabilizers- hold shoulder blade in place so it is not moving around on humerus

Question 44

Glenohumeral Instability: Passive Subsystem

Answer 44

• bony congruence- dent glenoid or humerus labrum; cartilage ring helps deepen socket
• ligaments
• capsules

Question 45

Glenohumeral Instability: Neural Subsystem

Answer 45

• musculotendinous receptors

- ligamentous receptors

Question 46

Shoulder Instability

Answer 46

• most dislocated joint- most mobile
• shoulder can exit joint and it stays out and needs to be put back into socket
• subluxation- it comes out and in in a fast movement
• involves separation of humerus from glenoid
• ## described as position of humeral head relative to glenoid fossa

Question 47

Shoulder Instability: epidemiology

Answer 47

• younger (20-30 years)
• male:female (9:1)- males more likely to participate in risky sports or high contact sports
• older (60-80) years, females: males 3:1 when older)

Question 48

Types of Shoulder Instability: TUBS

Answer 48

• T: traumatic
• U: unilateral with
• B: Bankart lesion, requiring
• S: surgery
• results from traumatic injury and effects the side that got impacted and can include lesion

Question 49

Types of Shoulder Instability: AMBRI

Answer 49

• A: atraumatic
• M: multidirectional instability
• B: bilateral
• R: requiring rehab and/or
• I: inferior capsular shift
• some people can self dislocate both arms without trauma and can dislocate anterior or posterior, etc. they require rehab, not surgery. would rather strengthen and stabilize it, it is hyper-mobile

Question 50

TUBS vs AMBRI

Answer 50

• can be overlap
• ligamentous lax patients with traumatic injuries (both)
• rehab would predominately be TUBS, AMBRI; people have learned to deal with it on their own

Question 51

Hil-Sach’s/Bankart Lesion

Answer 51

• dislocation, we bang off rim of glenoid and it causes it to break (displaced bankers lesion and broken rim of labrum)
• can also get hill sach lesion where we dent the head of the humerus from dislocation
• want an x ray
• may need surgery to fix
• also gives prognosis indicator if they will injure themselves again

Question 52

Tubs- Types (traumatic) Anterior*

Answer 52

• most dislocations are anterior: 95%
• MOI: abduction plus external rotation and extended arm
• less commonly trauma to posterior humerus

Question 53

Tubs- Types (traumatic) Posterior

Answer 53

• rare: 2-4% of dislocations
  MOI:
• direct: large force at anterior shoulder directed posteriorly (seizure)- can happen from seizure where person falls and floor makes them dislocate posteriorly

Indirect: flexion + abduction and internal rotation ( falling into a board in a hockey game and makes us fly backwards)

Question 54

Tubs- Types (traumatic) Inferior

Answer 54

• very rare
  MOI: sudden forceful shoulder abduction +/- loading arm in hyperabduction
  example; sliding in hockey after getting cross checked and falling on stomach and boards pushing you
  OR handstand where you spring with arms overhead causing inferior glide

Question 55

Anterior Instability- Arthrokinematics

EXTERNAL ROTATION

Answer 55

• shoulder at rest, anterior and posterior capsule.
• ER causes tightness of anterior capsule.
• we see convex move on concave and we have anterior glide because there is a posterior roll.
• Abd +Ext; have excessive anterior glide which can cause sprain or rupture of structures limiting anterior translation and head of humerus will go anterior inferior

Question 56

osteokinematics

Answer 56

posterior rotation

Question 57

Anthrokinematics

Answer 57

• posterior roll

- anterior glide

Question 58

External Rotation and Abduction Injury

Answer 58

• Abduction + ER force= excessive anterior glide which will sprain the supporting anterior capsule/ ligaments and the head of the humerus will dislocate/sublux anteriorly

Question 59

Anterior Instability: clinical presentation

Answer 59

• serve pain with all movements, limited ROM
• palpable humeral head in axilla (deltopectoral space)- can see deformity and see it poke out
• arm often held in adduction and external rotation
• cannot move arm at all, pain but also too scared to move it

potential neurovascular compromise

• check distal pulses
• axillary nerve palsy

Question 60

Associated Injuries with Anterior Instability

Answer 60

• dislocations
• fractures (greater or lesser tuberosity, proximal humerus, distal clavicle, AC separation, Bankart and Hill Sach lesions)
• Labral tear- Bankart lesion without bony part
• rotator cuff tear (higher incidence in older patients)
• axillary nerve injury- supplies posterior shoulder
• brachial plexus injury (described as dead arm, quickly stretched brachial plexus where it shuts things off and they cannot feel their arm)
• vascular injury

Question 61

Anterior Instability Treatment: Reduction/Immobilization

Answer 61

• reduction ASAP
• immobilization of GH joint (sling)
• maintain ROM of ST joint, elbow, wrist
• joint went through a lot so give it time to rest ~7-10 days

Question 62

Anterior Instability Treatment: Rehab

Answer 62

• ++++
• rotator cuff strengthening (so it doesn’t happen again)
• proprioception/joint position sense re-training
• graduated return to sport

Question 63

Anterior Instability Treatment: Surgery

Answer 63

• anterior capsule stabilization

Question 64

Risk of Recurrence (Anterior Instability)

Answer 64

- 39% rate of reccurrence after first-time shoulder dislocation 
risk factors:
- age (younger) 
- male 
- sporting related dislocations
- Hill-Sach's Lesion
- Bankart's Lesion

Question 65

Thoracic Outlet Syndrome (TOS)

Answer 65

• collection of signs and symptoms attributable to compression of the nerves and or blood vessels of the upper extremity as they pass above the first rib and under the clavicle

3 locations of neurovascular compression

• scalene triangle
• costoclavicular space
• subcorocoid space

Question 66

Types of TOS

Answer 66

1. neurogenic
2. venous
3. arterial

Question 67

Types of TOS: Neurogenic

Answer 67

• > 90% of all cases
• symptoms are caused by compression of the brachial plexus
• subjective history would report a history of lots of neuropathic pain (burning, tingling)

Question 68

Types of TOS: Venous

Answer 68

• 3-5% of all cases

- symptoms are caused by compression within subclavian and or axillary veins

Question 69

Types of TOS: Arterial

Answer 69

• < 3% of cases

- symptoms are caused by ischemia of subclavian artery from compression (usually because of a cervical rib)

Question 70

Causes of TOS

Answer 70

repetitive stress superimposed on an anatomical abnormality, leading to compression of neurovascular structures

Question 71

Structure Abnormalities Causing TOS

Answer 71

• cervical rib
• malunion of clavicle or first rib fracture - bone can stick into nerves or arteries in opposite direction
• atypical scalene origin or insertion
• scalene minimus- extra scalene muscle that occupies more space
• hypertrophy of scalene muscles
• callus or fibrosis from prior trauma
• tumor

Question 72

TOS Clinical Presentation: Neurogenic

Answer 72

• peripheral nerve pain (mot often through the ulnar nerve distribution)
• neck pain
• parethesias (tingling, pins and needles)
• weakness/loss of dexterity

Question 73

TOS Clinical Presentation: Venous

Answer 73

• arm pain and heaviness
• swelling/cyanosis
• dilated subcutaneous veins
• blood pressure asymmetry between sides (<20 mmHg)

Question 74

TOS Clinical Presentation: Arterial

Answer 74

• pain in arm and hand due to claudication, worse with activity
• diminished pulse
• coolness/pallor
• numbness

Question 75

Neurogenic TOS Locations

Answer 75

• ulnar nerve, C7-T1
• inferior bottom part of brachial plexus; when we follow BP we can see how inferior trunk is in the most narrow part of scalene triangle or it can get wedged against first rib or within subarachnoid space
• inferior trunk is more influenced

Question 76

Neuro Exam (TOS)

Answer 76

motor weakness/atrophy:

• flexor digitorum profundus (ulnar half)
• muscles of the hand (except for LOAF)
• ulnar border of ring finger will be numb, along with weakness of hand and anterior forearm

Question 77

Special Tests TOS; Vascular

Answer 77

• lots of special tests but they only look at vascular TOS; none to assess neurogenic
• monitor pulse to see if it diminishes in different positions
• military brace test (costoclavicular space)
• wright’s test (subpectoralis minor space)
• adson’s test (inter-scalene space)

Question 78

TOS-Neurogenic palpation

Answer 78

• distal pulses (radial)
• tinel’s test
• -supraclavicular fossa (brachial plexus)
• • cubital tunnel (ulnar)
• • carpal tunnel (median)

Question 79

TOS Neurogenic treatment: Education

Answer 79

• posture ++++ (including scapular mechanics)

- activity modifications (limit repetitive overhead stress, ergonomics)

Question 80

TOS Neurogenic treatment: manual therapy

Answer 80

• scalene, pectoralis minor stretching
• neuromobilizations (nerve flossing)
• rib, clavicular mobilizations

Question 81

TOS Neurogenic treatment: exercise

Answer 81

• restore ROM
• strengthening of upward rotators (UFT, SA, LFT)
• stretching downward rotators (Lev scap, pectoralis minor)

Question 82

TOS Neurogenic treatment: Surgery

Answer 82

• scalenectomy (scalene triangle)
• first rib resection (costoclavicular) - shave off first part of rib
• pec minor tenotomy (subcorocoid)- change anatomy and relocate it

Question 83

Neuromobilization: Nerves and Stretching

Answer 83

-nerves do not tolerate stretch well as axoplasmic circulation to the nerve is diminished at 23% and occluded at 30% strain

Question 84

Neuromobilization: Rationale

Answer 84

• restore the dynamic balance between the relative movement of neural tissues and surrounding mechanical interfaces
• this is allowing reduced intrinsic pressure on neural tissue and improving nerve conduction velocity (thus reducing symptoms)
• tensioners vs gliders

Question 85

Tensioner (Assessment)

Answer 85

• upper limb tension test 3 (ulnar)
• elbow flexion
• wrist/finger extension
• full supination
• scapular depression
• shoulder external rotation
• shoulder abduction to 90 degrees

Question 86

Slider Treatment

Answer 86

• decrease ulnar nerve tension biases (tension)–>increase ipsilateral neck side bend (slackened)
• decreased contralateral neck side bending (tension) and increase opposite of ulnar nerve tension biases (elbow extension, wrist flexion –slacken)