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Sternoclavicular Joint

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The bursa and supraspinatus muscle are compressed as the arm rises above the head ... Strengthening exercises (PT) -surgical *debridement: trimming/ smoothing ... – PowerPoint PPT presentation

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Title: Sternoclavicular Joint


1
Sternoclavicular Joint
  • capsule properties
  • capsule reinforcers
  • movement of joint

2
Capsule properties
  • A synovial joint with a fibrocartilaginous disk
    separating cavity in two
  • Strong joint capsule surrounds medial end of
    clavicle, fibrocartilaginous disk, and articular
    surface of manubrium of sternum

3
Capsule reinforcers
  • Three ligaments
  • posterior and anterior sternoclavicular ligaments
    anterior and posterior surface of the capsule
  • interclavicular ligament extends from one
    clavicle to the other
  • costoclavicular ligament strong accesory
    ligament which joins the clavicle to the first rib

4
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5
Capsule reinforcers
  • subclavius muscle
  • Originates at costal cartilage of first rib
  • Inserts on inferior aspect of clavicle

6
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7
Movement of joint
  • Superiorly/inferiorly with 30 to 40 of motion
  • Anteriorly/posteriorly with 30 of motion
  • Rotates anteriorly/posteriorly along axis with
    40 to 50 of motion

8
Injuries to the Sternoclavicular Joint
  • Dislocation of the clavicle at the sternum
  • May impinge on the great vessels of the superior
    mediastinum and compress or disrupt them
  • Fracture of the clavicle
  • Most commonly broken bone in thoracic cavity
  • Occurs mainly in middle third of clavicle
  • May cause damage to the axillary artery

9
Acromioclavicular Joint
  • It is where the oval facet on the medial surface
    of the acromion and similar facet on the lateral
    end of the clavicle meet.
  • It is a small gliding synovial joint that serves
    as a bony restriction to moving the arm above the
    head.

10
Ligaments
  • This joint in reinforced by three different
    ligaments.
  • Superior acromioclavicular ligament- a
    quadrilateral band that extends from the superior
    acromial end of the clavicle to the superior
    portion of the acromion process.
  • Inferior acromioclavicular ligament- This
    ligament is somewhat thinner than the superior,
    and it covers the inferior part of the
    articulation.
  • Coracoclavicular ligament- This is not actually a
    part of the AC joint but serves as a supporting
    mechanism for retaining contact between the
    clavicle and acromion process. It is composed of
    a trapezoid ligament, which attaches to the
    trapezoid line on the clavicle, and a conoid
    ligament, which attaches to the related conoid
    tubercle.

11
Ligaments
12
Movement
  • Protration/Retraction with a range between 30
    and 50 degrees.
  • Lateral and Medial movement with a range of
    roughly 60 degrees.
  • Scapular elevation and depression with a range of
    roughly 30 degrees.
  • The movements of the AC joint are opposite of the
    movements of the sternoclavicular joint for
    elevation, depression, protraction and
    retraction.

13
Injuries
  • The acromial end of the clavicle tends to
    dislocate at the AC joint with trauma (a direct
    blow to the shoulder football or hockey
    injuries).
  • A minor injury will often tear the fibrous joint
    capsule and acromioclavicular ligament.
  • A more severe injury will disrupt the
    coracoclavicular ligament and result in elevation
    and upward subluxation of the clavicle.

14
Injuries
  • There are different severities of joint
    separation at the AC joint. The are 6 types of
    separation.
  • Type I A sprain (without a complete tear) of
    either of the ligaments holding the joint
    together. The clavicle is not displaced.
  • Type II A complete tear of the acromioclavicular
    ligament and a partial tear of the
    coracoclavicular ligaments. The clavicle is
    slightly displaced.
  • Type III A complete tear of both the
    acromioclavicular ligament and the
    coracoclavicular ligaments. When this occurs the
    clavicle is severely displaced (dislocated).
  • Types IV, V, VI A complete tear of the
    acromioclavicular ligament and the
    coracoclavicular ligaments. The clavicle is
    severely dislocated and usually requires surgical
    intervention.

shoulderpaininfo.com/shoulderACSeparation.html
15
Injuries
16
The Glenohumeral Joint
17
Ball and Socket
  • Synovial ball and socket joint
  • Greatest ROM and movement potential of any joint
    in the body

18
Structural Makeup
19
Structural Makeup
  • Contains a small, shallow socket called glonoine
    fossa
  • Deepened by a rim of fibroid cartilage called the
    glenoid labrum that is strengthened by
    surrounding ligaments and tendons
  • Allows for excessive range

20
Anterior Support
  • CCL - coracoclavicular ligamentsCAL -
    coracoacromial ligaments
  • SGHL - Superior GlenoHumeral LigamentMGHL -
    Muperior GlenoHumeral LigamentIGHL - Inferior
    GlenoHumeral Ligament

21
Anterior Support
  • Also supported by
  • Glonoine labrum
  • 3 reinforcements in the capsule
  • Fibers of the subscapularis and the pectoralis
    major

22
Posterior Support
  • Reinforced by
  • Joint capsule
  • Glenoid labrum
  • Fibers of the teres minor and infraspinatus

23
Superior Aspect
  • Ganoid labrum
  • The coracohumeral ligament
  • Supraspinatus
  • Long head of the biceps brachii

24
Inferior Aspect
  • Minimally reinforced by the capsule and the long
    head of the triceps

25
Bursa
  • Subacromial bursae lie over the supraspinatus
    muscle
  • The bursa and supraspinatus muscle are compressed
    as the arm rises above the head

26
Movement of the GHJ
27
RotationLimited by abduction
28
Internal Rotation90
29
IRLimits abduction
30
More IR
31
Guess what? more IR
32
External Rotation90
33
More ERLimits flexionWith max ER max flexion
is 30
34
Flexion 180Limited by external rotation
35
Extension180
36
Another way to look at flexion and extension
37
Hyperextension 60
38
Abduction180Is limited by max internal
rotation-60
39
Adduction Hyperadduction 75
40
Another way to look at AD and AB duction
horizontally
41
Abduction and flexion
  • Uses deltoid and teres minor
  • Humerus head is depress in these actions
  • First 50 is deltoid
  • Deltoid tires easily
  • Teres kicks in to help

42
Scapula
  • Uses serratus anterior and trapezes to rotate and
    laterally and superiorly move the scapula

43
Rotator Cuff
  • Comprised of teres minor, subscapularis,
    infraspinatus, and the supraspinatus
  • When the arm is elevated in abduction and flexion
    (including rotation) stabilize the humeral head
    so injuries dont occur

44

45
Ouch
  • Extreme range of motion is need for activities
    such as throwing, tennis, swimming, gymnastics,
    hanging wall paper, or activities that require
    your arm to work above your head
  • If deltoid and rotator cuff muscle fatigue or are
    weak while participating in activities that need
    extreme range of motion then injuries can occur.

46
Rotator Cuff Injuries
  • Dislocation
  • Tear
  • Impingement
  • Frozen shoulder
  • Tendinopathy

47
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48
Dislocation
  • Anterior (most frequent)- traumatic incident
  • - occurs due to glenoid cavity supported by
    fibrocartilaginous glenoid labrum and its
    ligamentous support
  • -inferior glenoid cavity tears
  • -becomes susceptible to further dislocations
  • -axillary nerve damaged by compression from
    humoral head through quadrangular space
  • -lengthening effect may stretch radial nerve
    and produce paralysis

49
(Dislocation)
  • Posterior (extremely rare)
  • -most common cause extremely vigorous muscle
    contractions
  • -may be associated with epileptic seizures

50
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51
Tears
  • Most occur in supraspinatus
  • Most common in ages 40
  • Patients in acute trauma, overhead work
    activities, and some sports players most at risk
  • Ex) painting, stocking shelves, construction,
    swimmers, pitchers, tennis players

52
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53
(Tears)
  • Symptoms
  • -Acute follows trauma
  • -Chronic repetitive overhead activity that
    causes degeneration of tendon
  • Pain at front down through side of arm
  • First response- mild and only present with
    activity (aspirin or ibuprofen)
  • Later response- at rest or even NO activity
    (cannot lie on side at night, stiffness, loss of
    motion)

54
(Tears)
  • Diagnosis
  • -measure range of motion in multiple areas
  • -test strength of arm
  • -check for instability
  • -MRI or x-ray

55
(Tears)
  • Treatment
  • -non surgical
  • Rest and limit overhead activity
  • Wear sling
  • Anti-inflammatory medication
  • Steroid injection
  • Strengthening exercises (PT)
  • -surgical
  • debridement trimming/ smoothing
  • suturing 2 sides of tendon (complete)

56
Impingement
  • Excessive rubbing of tendons against acromial
    bone
  • Tendon begins to break down near its attachment
  • Can cause complete tear of tendon from bone

57
(Impingement)
  • Symptoms
  • - aching from top/front (outer side of upper
    arm)
  • -worse at night (interrupts sleep)
  • -unusual weakness in arm

58
(Impingement)
  • Development
  • - difference in joint anatomy in people
  • -form/ dimensions of acromial bone
  • -origination of spurs at the front edge
    (effects forward elevation)
  • -overuse (sports/ occupational activity)
  • -instability of shoulder (slight movement
    forward during certain activities)

59
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60
Frozen Shoulder (Adhesive Capsulitis)
  • Gradual onset of pain and limitation of shoulder
    motion
  • Thickening and tightening of soft tissue capsule
    that surrounds joint
  • -upon inflammation scaring occurs and adhesions
    form (intrudes on space needed for movement
    within joint)

61
(Frozen Shoulder)
  • Types
  • - Primary changes in immune system,
    biochemical, or hormonal inbalances
  • diabetes, cardiovascular, or neurological
    disorders may contribute
  • may affect both shoulders
  • may be resistant to most forms of treatment
  • -Secondary (acquired) develops from known
    cause (stiffness after injury, surgery, or
    prolonged period of immobilization)

62
(Frozen Shoulder)
  • Prognosis
  • - without treatment it lasts approximately 1-3
    years but is very painful
  • - even after years of being cured some patients
    complain of stiffness but no serious pain or
    functional limitations

63
Tendinopathy
  • Mainly involves supraspinatus (passing through
    acromion and acromioclavicular ligament)
  • Swelling of muscle, excessive fluid within
    subacromial/subdeltoid bursae, or subacromial
    spurs may produce significant impingement during
    abduction

64
(Tendinopathy)
  • Blood supply to tendon is poor
  • Repetitive trauma may make susceptible to
    degenerative change resulting in Ca deposits
    (extreme pain)
  • -further susceptible to trauma and partial or
    full thickness tears may easily develop
  • -most common in older patients resulting in
    considerable difficulty in carrying out ADLs

65
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