1. The shoulder region By
Dr.Akram Abood Jaffar
July 2000

2. The shoulder region Deltoid Teres major Subscapularis Supraspinatus
Infraspinatus
Teres minor
Rotator cuff
Subacromial bursa
Shoulder joint
Abduction mechanics
Supraspinatus tendonitis
Painful arc
Supraspinatus rupture
The shoulder in sections

3. Origin
Deltoid
clavicle
acromion
Arises from the clavicle and scapula (acromion and spine) immediately below the attachment of trapezius muscle.
spine

4. Deltoid
trapezius
the two muscles, deltoid and trapezius may be regarded as being one large continuous sheet with the spine of the scapula, the acromion, and the lateral third of the clavicle exposed between them
deltoid

5. Insertion
Deltoid
Inserted into the deltoid tuberosity of the humerus.

6. Deltoid
The muscle crosses the shoulder joint and forms the rounded contour of the shoulder owing to the underlying upper end of the humerus, this rounded appearance is lost when the shoulder dislocates.
Dislocation of the shoulder

7. Deltoid
The muscle is triangular in shape when viewed from the lateral side, hence its name (G. delta-like).

8. Nerve supply
Deltoid
Axillary nerve from the brachial plexus

9. Action
Deltoid
The central fibers are multipennate while the anterior and posterior fibers are parallel
Central fibers

10. Action
Deltoid
Acting in part the anterior fibers flex and medially rotate the humerus.
Medial rotation

11. Action
Deltoid
The middle fibers abduct the humerus.

12. Deltoid The posterior fibers extend and laterally rotate the humerus.
Action
Deltoid
The posterior fibers extend and laterally rotate the humerus.
lateral rotation

13. Action
Deltoid
The anterior and posterior fibers are alternating in action when swinging the arm during walking

14. Origin
Teres major
Arises from the dorsal surface of the inferior angle of the scapula

15. Insertion
Teres major
Inserted into the medial lip of the intertubercular groove of the humerus

16. Insertion
Teres major
The the tendon of that latissimus dorsi curves around the lower border of teres major and comes to lie in front of it since the former is inserted lateral to the tendon of teres major

17. Nerve supply
Teres major
Lower subscapular nerve.

18. Action
Teres major
An adductor and extensor of the humerus at the shoulder joint

19. Action
Teres major
it is also an important stabilizer of the proximal end of the humerus during abduction of the shoulder joint

20. Origin
Subscapularis
Subscapular fossa

21. Origin
Subscapularis
Medial to it, serratus anterior is attached to the anterior aspect of the medial border of the scapula;

22. Subscapularis
these two muscles, serratus anterior and subscapularis thus separate the scapula from the thoracic cage

23. Subscapularis
The tendon of subscapularis extends in front of the shoulder joint, separated from the joint by the subscapular bursa

24. Insertion
Subscapularis
Attached to the lesser tubercle of the humerus

25. Subscapularis The muscle is an obvious medial rotator of the humerus.
Action
Subscapularis
The muscle is an obvious medial rotator of the humerus.

26. Nerve sypply
Subscapularis
Upper and lower subscapular nerves

27. Supraspinatus Supraspinous fossa of the scapula (deep to trapezius)
Origin
Supraspinatus
Supraspinous fossa of the scapula (deep to trapezius)

28. Supraspinatus
Coraco-acromial ligament
Subacromial bursa
its tendon passes beneath the coraco-acromial ligament separated from it by the subacromial bursa superior to the shoulder joint

29. Supraspinatus Superior facet on the greater tubercle of the humerus
Insertion
Supraspinatus
Superior facet on the greater tubercle of the humerus

30. Action
Supraspinatus
An obvious abductor

31. Function of a bursa
a bursa is a flattened sac containing a film of synovial fluid, it is usually present where tendons rub against bones or ligaments; here supraspinatus tendon against coraco-acromial ligament]

32. The greater tubercle of the humerus carries 3 smooth facet: superior, middle, and inferior.
The superior one is for the attachment of supraspinatus
The middle for infraspinatus
The inferior for teres minor muscle

33. Origin
Infraspinatus
Infraspinous fossa

34. Infraspinatus
Its tendon passes behind the shoulder joint to be attached to the humerus

35. Infraspinatus The middle facet on the greater tubercle of the humerus
Insertion
Infraspinatus
The middle facet on the greater tubercle of the humerus

36. Action
Infraspinatus
An obvious lateral rotator of the humerus

37. Nerve supply
Suprascapular nerve
Both supraspinatus and infraspinatus muscles are supplied by suprascapular nerve.
This is a branch of the brachial plexus in the neck that passes beneath the suprascapular ligament

38. Suprascapular vessels
the accompanying vessels pass superior ligament into the supraspinous fossa then passes through spino-glenoid notch to supply infraspinatus

39. Teres minor Origin & insertion
Extends from the lateral margin of the scapula to the inferior facet on the greater tubercle of the humerus

40. Action
Teres minor
It is thus a lateral rotator

41. Teres minor Axillary nerve (similar to deltoid). Nerve supply deltoid

42. Teres major & minor
Note that teres major passes to the front of the humerus but teres minor to the back, so that the humerus is like a cigarette held between two fingers

43. Rotator cuff muscles
The four muscles subscapularis, supraspinatus, infraspinatus, and teres minor form what is termed the rotator cuff

44. Rotator cuff action
The rotator cuff except supraspinatus are rotators of the humerus

45. Rotator cuff action
The rotator cuff forms a musculotendinous cuff around the shoulder joint

46. Rotator cuff action
The tone of these muscles is very important in holding the head of the humerus into the glenoid fossa of the scapula
So they are important in the stability of the shoulder joint.

47. Rotator cuff action
Stability of the shoulder joint is the function that you should never forget
The other functions of rotation are probably less important and can be performed by other more powerful muscles

48. Rotator cuff action
The tendons of the muscles of the rotator cuff are not only attached very to those to the shoulder joint but they fuse with the lateral part of the capsule (thus preventing the lax capsule from being nipped ).

49. Rotator cuff action
Since there is no cuff inferiorly, the capsule is attached below the articular margin to prevent it from being nipped

50. Rotator cuff action
Note that the cuff lies on the anterior (subscapularis), superior (supraspinatus), and posterior (infraspinatus and teres minor) aspect of the joint.
The cuff is deficient inferiorly and this is a site of potential weakness of the shoulder joint which commonly dislocates inferiorly

51. Subacromial bursa
Lesions of the cuff are a common cause of pain in the shoulder region.
During abduction supraspinatus tendon is exposed to friction against the acromion process.

52. Subacromial bursa
Normally the friction is reduced by the subacromial bursa

53. Subacromial bursa
The subacromial bursa extends laterally beneath deltoid, hence its name "subdeltoid bursa"

54. Shoulder joint A synovial joint of the ball and socket variety
Type & articulation
Shoulder joint
A synovial joint of the ball and socket variety
There is a marked disproportion between the large head of the humerus (the ball) and the small shallow glenoid fossa (the socket)

55. Shoulder joint
The glenoid fossa only accepts about one-third of the humeral head

56. Shoulder joint Is therefore very mobile Mobility
Cyclograph showing range of abduction at shoulder girdle and joint
Cyclograph showing range of abduction at shoulder girdle and joint

57. Mobility
Shoulder joint
As a quick and useful clinical guide to rotation at the shoulder, the patient can be asked if the can do their own hair
Cyclograph showing range of abduction at shoulder girdle and joint

58. Mobility
Shoulder joint
If a woman, they can fasten brassiere straps at the back
Cyclograph showing range of abduction at shoulder girdle and joint

59. Shoulder joint If a man, he can touch the opposite scapula Mobility
Cyclograph showing range of abduction at shoulder girdle and joint

60. Shoulder joint Though very mobile, is easily dislocated
Cyclograph showing range of abduction at shoulder girdle and joint

61. Glenoid labrum
The glenoid fossa is deepened slightly by a rim of fibrocartilage (the glenoid labrum) but is still very shallow

62. Capsule The capsule is loose (thus it allows wide range of movement)
it is attached close to the margin of the articular surfaces.

63. Capsule
Medially it encloses the labrum and the origin of the long head of biceps muscle which arises from the supraglenoid tubercle.

64. Long head of biceps
The long head of triceps which arises from the infraglenoid tubercle is outside the capsule

65. Capsule
Laterally the capsule is attached to the anatomical neck of the humerus except inferiorly where its attachment extends down to the surgical neck

66. Openings of the capsule2
Openings of the capsule
one between the tubercles of the humerus which allows the passage of the tendons of the long head of biceps

67. Openings of the capsule
The other opening is located anteriorly and allows communication with the subscapularis bursa.

68. Subacromial bursa
The subacromial bursa does not communicate with the cavity of the shoulder joint

69. ligaments
The capsule is strengthened by intrinsic and extrinsic ligaments

70. Intrinsic ligaments Are thickenings of the capsule itself, these are
the three parts of the glenohumeral ligament anteriorly
superior
anterior
inferior
Has extensions indicated by its name

71. Intrinsic ligaments coracohumeral ligament superiorly
Has extensions indicated by its name

72. Intrinsic ligaments
the transverse humeral ligament which bridges over the superior end of the intertubercular groove converting it into a canal for the passage of the tendon of the long head of biceps as it emerges from the anterior opening of the capsule.

73. Extrinsic ligaments
An extrinsic ligament the coraco-acromial ligament is more important than the previously mentioned intrinsic ligaments.
This strong ligament links the coracoid and acromion processes together.
These three structures form the coraco-acromial arch

74. Coraco-acromial ligament
they prevent the superior displacement of the shoulder joint.
Don't forget that the capsule is further strengthened by the tendons of the rotator of muscles fusing with its

75. Stability The shoulder joint is unstable because of the
disproportion of the articular surfaces
shallowness of the glenoid fossa
laxity of the capsule
all these provide a wide range of movement on the expense of stability

76. Stability
As for the shoulder joint, muscles are the most important factor in providing stability
particularly the rotator cuff muscles
the long head of biceps and triceps; the latter during abduction lies beneath the head of the humerus, this is the weakest parts of the joint being bare of rotator cuff muscles.

77. Shoulder joint
Other factors include the coraco-acromial arch which supports the joint superiorly

78. Dislocation
Since the inferior aspect is unprotected by muscle, it is here that, in violent abduction, the humeral head may slip away from the glenoid to lie in the subglenoid region, whence it usually passes anteriorly into a subcoracoid position

79. Dislocation
The dislocated head is held adducted by the shoulder girdle muscles and internally rotated by subscapularis

80. Abduction mechanics The muscles
when the arm is by the side of the body, deltoid contraction is ineffective sense it pulls vertically on the humerus
therefore, the initial stage of abduction (the first degrees) is done by supraspinatus

81. The muscles
Abduction mechanics
deltoid then takes over up to 90 degrees by means of its central multipennate fibers

82. The muscles
Abduction mechanics
shortly after, the movement at the glenohumeral joint is supplemented by rotation of the scapula produced by the lower fibers of serratus anterior and the upper and lower fibers of trapezius.

83. The muscles
Abduction mechanics
During abduction teres major stabilizes and holds down the proximal end of the humerus
the long head of triceps lying immediately beneath the head provides further stability

84. The bones
Abduction mechanics
During abduction the greater tubercle of the humerus hits the acromion

85. The bones
Abduction mechanics
The greater tubercle can be released by lateral rotation of the arm

86. Abduction mechanics The bones
It is therefore necessary to rotate the arm laterally to attain full abduction
This must be remembered when carrying out the movement on an unconscious patient, since further abduction without lateral rotation would produce dislocation.

87. Abduction mechanics The bones
Others believe that it is NOT the interlocking of the greater tubercle and the acromion that necessitates lateral rotation, but this is due to the fact that no further articular surface is available on the humerus

88. The bones
Abduction mechanics
lateral rotation in this case would bring the articular surface from below to above the glenoid

89. Blood supply
Is derived from the anterior and posterior circumflex humeral arteries (from the axillary) and the suprascapular artery (from the subclavian artery).

90. Nerve supply
Is derived from the suprascapular, axillary, and lateral pectoral nerves

91. Supraspinatus tendonitis
The tendon of supraspinatus undergoes degenerative changes and calcification in old age
wear

92. Supraspinatus tendonitis
The tendon of supraspinatus undergoes degenerative changes and calcification in old age
tear

93. Supraspinatus tendonitis
The tendon of supraspinatus undergoes degenerative changes and calcification in old age
repair

94. Supraspinatus tendonitis
The tendon of supraspinatus undergoes degenerative changes and calcification in old age
calcification

95. Painful arc
In long standing cases of degeneration of rotator cuff tendons
It is characterized by painful arc of shoulder movement between degrees
in this range the tendon and the overlying acromion are in intimate contact

96. Painful arc
In long standing cases of degeneration of rotator cuff tendons
It is characterized by painful arc of shoulder movement between degrees
in this range the tendon and the overlying acromion are in intimate contact

97. Painful arc
In long standing cases of degeneration of rotator cuff tendons
It is characterized by painful arc of shoulder movement between degrees
in this range the tendon and the overlying acromion are in intimate contact

98. Supraspinatus rupture
Rupture of the calcified supraspinatus tendon prevents active initiation of abduction

99. Supraspinatus rupture
the patient has to develop the trick of tilting the body towards the injured side so that gravity passively swings the arm from the trunk in order that deltoid comes into play

100. Greater tubercle
Lesser tubercle
Head of humerus
Glenoid fossa

101. Clavicle
Acromion
Coracoid process
Glenoid fossa

102. Greater tubercle Lesser tubercle Head of humerus Glenoid fossa
Axial MRI

103. Subscapularis
Infraspinatus
Deltoid
Long head of
biceps

104. Subscapularis
Infraspinatus
Deltoid
Long head of
biceps
Axial MRI

105. Pectoralis major
Pectoralis minor
Coracobrachialis & short head of biceps
Suprascapular vessels

106. Coracobrachialis & short head of biceps
Pectoralis major
Pectoralis minor
Coracobrachialis & short head of biceps
Suprascapular vessels
Axial MRI

107. Trapezius
Deltoid
Supraspinatus
Clavicle
Oblique coronal MRI

108. Glenoid fossa Glenoid labrum Head of humerus Greater tuberosity
Oblique coronal MRI