7.5 Muscles of the Pectoral Girdle and Upper Limbs

Learning Objectives

By the end of this section, you will be able to:

  • Identify the muscles of the pectoral girdle and upper limbs
  • Identify the movement and function of the pectoral girdle and upper limbs

 

Muscles of the shoulder and upper limb can be divided into four groups: muscles that stabilize and position the pectoral girdle, muscles that move the arm, muscles that move the forearm, and muscles that move the wrists, hands, and fingers. The pectoral girdle, or shoulder girdle, consists of the lateral ends of the clavicle and scapula, along with the proximal end of the humerus, and the muscles covering these three bones to stabilize the shoulder joint. The girdle creates a base from which the head of the humerus, in its ball-and-socket joint with the glenoid fossa of the scapula, can move the arm in multiple directions.

 

Muscles That Position the Pectoral Girdle

Muscles that position the pectoral girdle are located either on the anterior thorax or on the posterior thorax (Figure 7.12 and Table 7.6). The anterior muscles include the subclavius, pectoralis minor, and serratus anterior. The posterior muscles include the trapezius, rhomboid major, and rhomboid minor. When the rhomboids are contracted, your scapula moves medially, which can pull the shoulder and upper limb posteriorly.

 

Figure 7.12 Muscles That Position the Pectoral Girdle The muscles that stabilize the pectoral girdle make it a steady base on which other muscles can move the arm. Note that the pectoralis major and deltoid, which move the humerus, are cut here to show the deeper positioning muscles.

Table 7.6 – Muscles that Position the Pectoral Girdle

Prime mover

Origin

Insertion

Movement

Subclavius

First rib

Inferior surface of clavicle

Depression of the clavicle; stabilizes the clavicle during shoulder movement

Levator scapula

Transverse processes C1-4

Medial border of scapula

Elevation of the scapula; cervical side flexion

Pectoralis minor

Ribs 3-5

Coracoid process of the scapula

Stabilizes the scapula against the rib cage by pulling anteriorly; assists with inhalation

Serratus anterior

Lateral aspects of ribs 1-9

Anterior surface of lateral border of scapula

Scapular protraction

Trapezius

Occipital bone; nuchal ligament; spinous process of C7-T12

Lateral ⅓ of clavicle; spine of scapula; acromion process

Upper fibers – scapular elevation; cervical side flexion

Middle fibers – scapular retraction

Lower fibers – scapular depression

Rhomboid major

Thoracic vertebrae T2-5

Medial border of scapula

Scapular retraction; scapular downward rotation

Rhomboid minor

C7 and T1

Medial border of scapula

Scapular retraction; scapular downward rotation

 

Muscles That Move the Humerus

Similar to the muscles that position the pectoral girdle, muscles that cross the shoulder joint and move the humerus bone of the arm include both axial and scapular muscles (Figure 7.13 and Table 7.7). The two axial muscles are the pectoralis major and the latissimus dorsi. The pectoralis major is thick and fan-shaped, covering much of the superior portion of the anterior thorax. The broad, triangular latissimus dorsi is located on the inferior part of the back, where it inserts into a thick connective tissue sheath called an aponeurosis.

 

Figure 7.13 Muscles That Move the Humerus (a, c) The muscles that move the humerus anteriorly are generally located on the anterior side of the body and originate from the sternum (e.g., pectoralis major) or the anterior side of the scapula (e.g., subscapularis). (b) The muscles that move the humerus superiorly generally originate from the superior surfaces of the scapula and/or the clavicle (e.g., deltoids). The muscles that move the humerus inferiorly generally originate from middle or lower back (e.g., latissiumus dorsi). (d) The muscles that move the humerus posteriorly are generally located on the posterior side of the body and insert into the scapula (e.g., infraspinatus).
Table 7.7 – Muscles that Move the Humerus

Prime mover

Origin

Insertion

Movement

Axial muscles

Pectoralis major

Clavicle; sternum; cartilage of certain ribs (1-6/7); aponeurosis of external oblique muscle

Greater tubercle of humerus

Shoulder flexion, adduction, and medial rotation

Latissimus dorsi

T7-T12; lumbar vertebrae; ribs 9-12; iliac crest

Bicipital groove of humerus

Shoulder extension, adduction, and medial rotation

Scapular depression

Appendicular muscles

Deltoid

Lateral ⅓ of clavicle; acromion of scapula; spine of scapula

Deltoid tuberosity of humerus

Anterior fibers – shoulder flexion and medial rotation

Middle fibers – shoulder abduction

Lateral fibers – shoulder extension and lateral rotation

Subscapularis

Subscapular fossa of scapula

Lesser tubercle of humerus

Centers head of humerus in glenoid fossa

Shoulder medial rotation

Supraspinatus

Supraspinous fossa of scapula

Greater tubercle of humerus

Centers head of humerus in glenoid fossa

Shoulder lateral rotation

Infraspinatus

Infraspinous fossa of scapula

Greater tubercle of humerus

Centers head of humerus in glenoid fossa

Shoulder lateral rotation

Teres major

Inferior angle and lateral border of scapula

Bicipital groove of humerus

Shoulder extension and adduction

Teres minor

Lateral border of scapula

Greater tubercle of humerus

Centers head of humerus in glenoid fossa

Shoulder lateral rotation

Coracobrachialis

Coracoid process of scapula

Medial surface of humeral shaft

Shoulder flexion and adduction

The rest of the shoulder muscles originate on the scapula. The anatomical and ligamental structure of the shoulder joint and the arrangements of the muscles covering it, allows the arm to carry out different types of movements. The deltoid, the thick muscle that creates the rounded lines of the shoulder is the major abductor of the arm, but it also facilitates flexing and medial rotation, as well as extension and lateral rotation. The subscapularis originates on the anterior scapula and medially rotates the arm. Named for their locations, the supraspinatus (superior to the spine of the scapula) and the infraspinatus (inferior to the spine of the scapula) abduct the arm, and laterally rotate the arm, respectively. The thick and flat teres major is inferior to the teres minor and extends the arm, and assists in adduction and medial rotation of it. The long teres minor laterally rotates and extends the arm. Finally, the coracobrachialis flexes and adducts the arm.

The tendons of the deep subscapularis, supraspinatus, infraspinatus, and teres minor connect the scapula to the humerus, forming the rotator cuff (musculotendinous cuff), the circle of tendons around the shoulder joint. When baseball pitchers undergo shoulder surgery it is usually on the rotator cuff, which becomes pinched and inflamed, and may tear away from the bone due to the repetitive motion of bring the arm overhead to throw a fast pitch.

Muscles That Move the Elbow and Forearm

The forearm, made of the radius and ulna bones, has four main types of action at the hinge of the elbow joint: flexion, extension, pronation, and supination. The elbow flexors include the biceps brachii, brachialis, and brachioradialis. The elbow extensor is the triceps brachii. The forearm pronators are the pronator teres and the pronator quadratus, and the supinator is the only one that supinates the forearm (turns the palm of the hand anteriorly).

The biceps brachii, brachialis, and brachioradialis flex the elbow. The two-headed biceps brachii crosses the shoulder and elbow joints to flex the elbow, also taking part in supinating the forearm at the radioulnar joints and flexing the arm at the shoulder joint. Deep to the biceps brachii, the brachialis provides additional power in flexing the elbow. Finally, the brachioradialis can flex the elbow quickly or help lift a load slowly. These muscles and their associated blood vessels and nerves form the anterior compartment of the arm (anterior flexor compartment of the arm) (Figure 7.14 and Table 7.8).

 

Figure 7.14 Muscles That Move the Elbow and Forearm The muscles originating in the upper arm flex and extend the elbow, and pronate, and supinate the forearm. The muscles originating in the forearm move the wrists, hands, and fingers.

 

Table 7.8 – Muscles that Move the Elbow and Forearm

Prime mover

Origin

Insertion

Movement

Anterior muscles (flexion)

Biceps brachii

Long head – supraglenoid tubercle of scapula

Short head – coracoid process of scapula

Radial tuberosity

Elbow flexion and supination

Shoulder flexion (long head only)

Brachialis

Anterior distal shaft of humerus

Coronoid process of ulna

Elbow flexion

Brachioradialis

Lateral distal shaft of humerus

Radial styloid process

Elbow flexion

Assists forearm supination when pronated

Assists forearm pronation when supinated

Posterior muscles (extension)

Triceps brachii

Long head – infraglenoid tubercle of scapula

Medial head – medial shaft of humerus

Lateral head – lateral shaft of humerus

Olecranon process of ulna

Elbow extension

Shoulder extension (long head only)

Anconeus

Lateral epicondyle of humerus

Lateral aspect of olecranon process of ulna

Elbow extension

Anterior muscles (pronation)

Pronator teres

Medial epicondyle of humerus; coronoid process of ulna

Lateral mid-shaft of radius

Forearm pronation

Pronator quadratus

Anterior distal shaft of ulna

Anterior distal shaft of radius

Forearm pronation

Posterior muscles (supination)

Supinator

Lateral epicondyle of humerus; proximal ulna

Lateral proximal shaft of radius

Forearm supination

 

Muscles That Move the Wrist, Hand, and Fingers

Wrist, hand, and finger movements are facilitated by two groups of muscles. The forearm is the origin of the extrinsic muscles of the hand. The palm is the origin of the intrinsic muscles of the hand.

 

Muscles of the Arm That Move the Wrists, Hands, and Fingers

The muscles in the anterior compartment of the forearm (anterior flexor compartment of the forearm) originate on the humerus and insert into different parts of the hand. These make up the bulk of the forearm. From lateral to medial, the superficial anterior compartment of the forearm includes the flexor carpi radialis, palmaris longus, flexor carpi ulnaris, and flexor digitorum superficialis. The flexor digitorum superficialis flexes the hand as well as the digits at the knuckles, which allows for rapid finger movements, as in typing or playing a musical instrument (see Table 7.9 and Table 7.10). However, poor ergonomics can irritate the tendons of these muscles as they slide back and forth with the carpal tunnel of the anterior wrist and pinch the median nerve, which also travels through the tunnel, causing Carpal Tunnel Syndrome. The deep anterior compartment produces wrist and digit flexion, bending the fingers to make a fist. These are the flexor pollicis longus and the flexor digitorum profundus.

The muscles in the superficial posterior compartment of the forearm (superficial posterior extensor compartment of the forearm) originate on the humerus. These are the extensor radialis longus, extensor carpi radialis brevis, extensor digitorum, extensor digiti minimi, and the extensor carpi ulnaris.

The muscles of the deep posterior compartment of the forearm (deep posterior extensor compartment of the forearm) originate on the radius and ulna. These include the abductor pollicis longus, extensor pollicis brevis, extensor pollicis longus, and extensor indicis (see Table 7.9).

The tendons of the forearm muscles attach to the wrist and extend into the hand. Fibrous bands called retinacula sheath the tendons at the wrist. The flexor retinaculum extends over the palmar surface of the hand while the extensor retinaculum extends over the dorsal surface of the hand.

Table 7.9 – Muscles that Move the Wrist, Hand, and Forearm

Prime mover

Origin

Insertion

Movement

Superficial anterior compartment of forearm

Flexor carpi radialis

Medial epicondyle of humerus

Base of 2nd and 3rd metacarpals

Wrist flexion and abduction

Flexor carpi ulnaris

Medial epicondyle of humerus

Pisiform, hamate, base of 5th metacarpal

Wrist flexion and adduction

Flexor digitorum superficialis

Medial epicondyle of humerus; anterior shaft of radius

Middle phalanges of digits 2-5

Wrist flexion; finger flexion digits 2-5

Palmaris longus

Medial epicondyle of humerus

Palmar aponeurosis

Wrist flexion

Deep anterior compartment of forearm

Flexor digitorum profundus

Coronoid process; anteromedial surface of ulna

Distal phalanges of digits 2-5

Wrist flexion; finger flexion digits 2-5

Flexor pollicis longus

Anterior surface of radius

Distal phalanx of thumb

Thumb flexion

Superficial posterior compartment of forearm

Extensor carpi radialis longus

Lateral supracondylar ridge of humerus

Base of 2nd metacarpal

Wrist extension and abduction

Extensor carpi radialis brevis

Lateral epicondyle of humerus

Base of 3rd metacarpal

Wrist extension and abduction

Extensor carpi ulnaris

Lateral epicondyle of humerus

Base of 5th metacarpal

Wrist extension and adduction

Extensor digitorum

Lateral epicondyle of humerus

Extensor expansions; distal phalanges of digits 2-5

Wrist extension; finger extension

Extensor digiti minimi

Lateral epicondyle of humerus

Extensor expansions; distal phalanx of digit 5

Finger extension of digit 5

Deep posterior compartment of forearm

Abductor pollicis longus

Posterior surface of radius and ulna

Base of first metacarpal; trapezium

Thumb abduction and extension

Wrist abduction

Extensor pollicis longus

Posterior shaft of radius and ulna

Base of distal phalanx of thumb

Thumb extension

Extensor pollicis brevis

Posterior shaft of radius and ulna

Base of proximal phalanx of thumb

Thumb extension

Extensor indicis

Posterior surface of radius and ulna

Tendon of extensor digitorum of index finger

Finger extension of digit 2

 

Intrinsic Muscles of the Hand

The intrinsic muscles of the hand both originate and insert within it (Figure 7.15). These muscles allow your fingers to also make precise movements for actions, such as typing or writing. These muscles are divided into three groups. The thenar muscles are on the radial aspect of the palm. The hypothenar muscles are on the medial aspect of the palm, and the intermediate muscles are midpalmar.

The thenar muscles include the abductor pollicis brevis, opponens pollicis, flexor pollicis brevis, and the adductor pollicis. These muscles form the thenar eminence, the rounded contour of the base of the thumb, and all act on the thumb. The movements of the thumb play an integral role in most precise movements of the hand.

The hypothenar muscles include the abductor digiti minimi, flexor digiti minimi brevis, and the opponens digiti minimi. These muscles form the hypothenar eminence, the rounded contour of the little finger, and as such, they all act on the little finger. Finally, the intermediate muscles act on all the fingers and include the lumbrical, the palmar interossei, and the dorsal interossei.

 

Figure 7.15 Intrinsic Muscles of the Hand The intrinsic muscles of the hand both originate and insert within the hand. These muscles provide the fine motor control of the fingers by flexing, extending, abducting, and adducting the more distal finger and thumb segments.

 

Table 7.10 – Intrinsic Muscles of the Hand

Prime mover

Origin

Insertion

Movement

Abductor pollicis brevis

Flexor retinaculum; nearby carpals

Lateral base of proximal phalanx of thumb

Thumb abduction

Opponens pollicis

Flexor retinaculum; trapezium

Anterior shaft of first metacarpal

Thumb opposition

Flexor pollicis brevis

Flexor retinaculum; trapezium

Base of proximal phalanx of thumb

Thumb flexion

Adductor pollicis

Capitate; bases of metacarpals 2-4

Medial base of proximal phalanx of thumb

Thumb adduction

Abductor digiti minimi

Pisiform

Medial side of proximal phalanx of digit 5

Abduction of digit 5

Flexor digiti minimi brevis

Hamate; flexor retinaculum

Medial side of proximal phalanx of digit 5

Flexion of digit 5

Opponens digiti minimi

Hamate; flexor retinaculum

Medial side of 5th metacarpal

Opposition of digit 5

Lumbricals

Lateral sides of tendons in flexor digitorum profundus

Lateral edges of extensor expansion on first phalanges

Flexion at metacarpo-phalangeal joint and extension of interphalangeal joint of digits 2-5

Palmar interossei

Sides of each metacarpal that faces metacarpal 3

Extensor expansion on first phalanx of each expect (expect digit 3) on side facing digit 3

Adducts the fingers (except digit 3)

Dorsal interossei

Sides of metacarpals

Both sides of digit 3; for each other finger extensor expansion over first phalanx on side opposite digit 3

Abducts the three middle fingers (digits 2-4)

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