6. What Muscle Is Located on the Back of Your Arm?

Introduction

The triceps brachii is a large, thick muscle on the dorsal part of the upper arm. It often appears as the shape of a horseshoe on the posterior aspect of the arm. The main function of the triceps is the extension of the elbow joint. It is composed of three heads (tri = three, cep = head): a long head, a lateral head, and a medial head. The tendons all have different origins, but the three heads combine to form a single tendon distally. The long head originates from the infraglenoid tubercle of the scapula, while both the lateral head and the medial head both originate from the humerus. The three heads converge into a single tendon, and this tendon attaches to the proximal portion of the olecranon process (the bony prominence of the elbow) located on the upper portion of the ulna.[1]

Structure and Function

The triceps' primary function is extending the forearm at the elbow joint, which opposes the action of the flexors such as the biceps brachii. At rest, with the arm slightly bent with flexion, the biceps brachii overpowers the triceps brachii. Along with extending the forearm at the elbow joint, the triceps can also stabilize the elbow joint when the forearm and hand are doing fine movements such as writing.[2][1]

The triceps brachii is located in the dorsal compartment of the arm. The lateral intermuscular septum separates the dorsal part from the arm from the ventral part, which is where the flexors of the arm are (biceps, brachialis, and brachioradialis).

Long head—The origin of the long head is the infra-glenoid tubercle of the scapula. Because it attaches to the scapula, the long head not only extends the elbow but will also have a small action on the glenohumeral or shoulder joint. With the arm adducted, the triceps muscle acts to hold the head of the humerus in the glenoid cavity. This action helps prevent any displacement of the humerus. The long head also assists with the extension and adduction of the arm at the shoulder joint. The lateral head is also active during extension forearm at the elbow joint when the forearm is supinated or pronated.

Medial head—The origin of the medial head is at the dorsal humerus, inferior to the radial groove, and connecting to the intermuscular septum. The medial head does not attach to the scapula and therefore has no action on the glenohumeral joint, whether with stabilization or movement. However, the medial head is active during extension of the forearm at the elbow joint when the forearm is supinated or pronated.

Lateral head—The lateral head originates at the dorsal humerus as well, but unlike the medial head, it is superior to the radial groove, where it fuses to the lateral intermuscular septum. This head is considered to be the strongest head of the three. It is active during extension of the forearm at the elbow joint when the forearm is supinated or pronated.

Embryology

The mesoderm develops during the third week following the gastrulation process. In the third week, the paraxial mesodermal layer begins to organize into segments called somitomeres. These consist of concentric layers of mesodermal cells formed with cranial to caudal progression. Subsequently, they organize in somites. The somites appear with a frequency of about three pairs a day so that at the fifth week are recognizable 42 to 44 pairs of somites of which: four occipital pairs, seven cervical, twelve thoracic, five lumbar, five sacral, and between eight and ten coccyx pairs.

The triceps brachii begins to develop during the fifth week of embryogenesis. The muscle originates from the dorsal muscle mass of the upper limb bud and is derived from the paraxial mesodermal leaflet.[3]

Blood Supply and Lymphatics

The arterial supply to the triceps is provided by the deep brachial artery, which is a branch of the brachial artery and is supplied by ulnar collateral arteries. The venous drainage is the brachial vein that runs with the deep brachial artery.

Lymphatic vessels, like lymph nodes, are divided into superficial and deep. The superficial lymphatic collectors are the cutaneous lymphatic capillaries, especially of the hand, from which they course proximally in the forearm to form three groups: medial, lateral, and anterior collectors.  In the arm, then they continue to get to the armpit to the axilla.[4]

Nerves

The provision of nerve supply to the triceps is by the radial nerve (root C6, C7, and C8). However, according to the cadaveric study, it was found that the medial head of the triceps brachii could be innervated partially by the ulnar nerve. Following that line of investigation, other research also reveals that the long head of the triceps brachii can also be innervated partially by the axillary nerve.

The radial nerve originates from the posterior cord of the brachial plexus in the anterior axilla. The nerve then courses along with the profunda brachii artery (the artery that supplies blood to the posterior arm) travels through the arm inferolaterally. It passes behind the humerus and through the radial groove between both the lateral and medial heads of the triceps brachii.[5]

Muscles

Triceps brachii

• Long head

  • Origin: infraglenoid tubercle of the scapula

  • Insertion: olecranon of ulna

  • Action: extension of the forearm

  • Innervation: radial nerve

• Lateral head

  • Origin: posterior aspect of the humerus, superior to the radial groove

  • Insertion: olecranon of ulna

  • Action: extension of the forearm

  • Innervation: radial nerve

• Medial head

  • Origin: posterior aspect of humerus, inferior to the radial groove

  • Insertion: olecranon of ulna

  • Action: extension of the forearm

  • Innervation: radial nerve

Physiologic Variants

There have been reports of a fourth head in a few cadaver studies. This accessory muscle can originate from the humerus, shoulder capsule, coracoid processes, or muscles in close proximity. These accessory muscles can potentially compress the radial and ulnar nerves. Therefore, it is essential for surgeons and physicians to keep in mind that although rare, these variations exist, which can help diagnose cases of nerve entrapment and other pathologic causes that may not be explained by any other typical factors.[6][7][3]

Surgical Considerations

Axillary nerve damage can have an impact on the long head of the triceps brachii (LTB). Therefore, people with axillary nerve damage should undergo an assessment for the function of the LTB. If they demonstrate lost function, this shows a poor prognosis, and early repair at three months is recommended.[8]

The triceps muscle can undergo reinnervation through a distal nerve transfer. Commonly used nerves for reinnervation include the flexor carpi ulnaris fascicle of the ulnar nerve and the posterior branch of the axillary nerve. Both of these nerves have been shown to recover the function of the triceps muscle[9]

Additionally, various heads of the triceps can be used as flap coverage in traumatic injury. The medial and lateral heads are commonly harvested as flaps. These procedures are indicated during nerve injuries, shoulder or elbow defects, or muscular reanimation.[10]

Clinical Significance

The triceps reflex, elicited by sharply striking the triceps tendon, is often used to test the function of the nerves of the arm. This reflex tests spinal nerves C6 and C7, predominately C7. The reflex is tested by abducting the patient's shoulder and elbow to 90 degrees. Then the triceps tendon is tapped using a reflex hammer just proximal to the olecranon.[11]

Triceps tendinitis can occur with an overload of the muscle. It commonly manifests as chronic posterior elbow pain that is worsened with active extension. The condition is commonly seen in men aged 30 to 40 years who are throwing athletes. The condition is typically managed with rest and pain management.

Ruptures of the triceps muscle are rare and typically only occur in anabolic steroid users. Distal triceps ruptures are also relatively uncommon. The reason they are not common revolves primarily around the anatomy of the triceps muscle. If a rupture were to occur, it would occur at the tendon-bone junction, resulting from an eccentric contraction of the muscle. The injury typically occurs due to either a fall on an outstretched hand or a direct blow to the triceps tendon. The patient presents after a painful popping sensation with pain and swelling over the posterior elbow with the inability to extend the elbow against resistance. Surgical consideration for a partial rupture is controversial, but it is necessary for a complete rupture. If the rupture is chronic, then along with surgical repair, remodeling is also indicated.[12]

Other Issues

The triceps brachii can undergo training in a variety of different ways. It can be worked out in isolation or with compound elbow extension movements. It can also be contracted statically to keep the arm straight against resistance.

Examples of isolation movements include lying triceps extensions, behind-the-back arm extensions, cable push-downs, and standing triceps "kickbacks." The compound exercises that work out the triceps include any pressing movements like push-ups, bench press, close grip bench press, tricep dips, and military presses. The closer the grip on these exercises, the more they isolate the triceps. The wider the grip, the more they work the outer chest.

Static contraction movements include pullovers, straight-arm pull-downs, and bent-over lateral raises, which are also used to build the deltoids and latissimus dorsi.

Review Questions

Figure

Front of right upper extremity Anatomy, Flexor Carpal Radius, Abductor and Exterior Pollicis Longus and Brevis, Palmaris Longus, Medial group of Antebrachial muscles, Antecubital fossa, Lateral group of Antebrachial muscles, Brachialis, Biceps brachii, (more...)

Figure

Clinical Examination of Reflexes, Triceps Jerk, Triceps Tendon, Olecranon, Triceps muscle extension. Contributed by Dr. Raju S. Menon (https://www.youtube.com/watch?v=62jADalpDaI)

References

1.

Madsen M, Marx RG, Millett PJ, Rodeo SA, Sperling JW, Warren RF. Surgical anatomy of the triceps brachii tendon: anatomical study and clinical correlation. Am J Sports Med. 2006 Nov;34(11):1839-43. [PubMed: 16735585]

2.

Kholinne E, Zulkarnain RF, Sun YC, Lim S, Chun JM, Jeon IH. The different role of each head of the triceps brachii muscle in elbow extension. Acta Orthop Traumatol Turc. 2018 May;52(3):201-205. [PMC free article: PMC6136322] [PubMed: 29503079]

3.

Grzonkowska M, Badura M, Lisiecki J, Szpinda M, Baumgart M, Wiśniewski M. Growth dynamics of the triceps brachii muscle in the human fetus. Adv Clin Exp Med. 2014 Mar-Apr;23(2):177-84. [PubMed: 24913107]

4.

Dankel SJ, Jessee MB, Abe T, Loenneke JP. The Effects of Blood Flow Restriction on Upper-Body Musculature Located Distal and Proximal to Applied Pressure. Sports Med. 2016 Jan;46(1):23-33. [PubMed: 26446893]

5.

Glover NM, Murphy PB. StatPearls [Internet]. StatPearls Publishing; Treasure Island (FL): Jul 31, 2020. Anatomy, Shoulder and Upper Limb, Radial Nerve. [PubMed: 30521261]

6.

Tubbs RS, Salter EG, Oakes WJ. Triceps brachii muscle demonstrating a fourth head. Clin Anat. 2006 Oct;19(7):657-60. [PubMed: 16583379]

7.

Erhardt AJ, Futterman B. Variations in the Innervation of the Long Head of the Triceps Brachii: A Cadaveric Investigation. Clin Orthop Relat Res. 2017 Jan;475(1):247-250. [PMC free article: PMC5174069] [PubMed: 27830483]

8.

Rezzouk J, Durandeau A, Vital JM, Fabre T. [Long head of the triceps brachii in axillary nerve injury: anatomy and clinical aspects]. Rev Chir Orthop Reparatrice Appar Mot. 2002 Oct;88(6):561-4. [PubMed: 12447125]

9.

Alolabi N, Lovy AJ, Kircher MF, Spinner RJ, Bishop AT, Shin AY. Distal Nerve Transfers to the Triceps Brachii Muscle: Surgical Technique and Clinical Outcomes. J Hand Surg Am. 2020 Feb;45(2):155.e1-155.e8. [PubMed: 31221517]

10.

Villani F, Piquilloud G, Casoli V. The medial head of triceps brachii: a muscular flap. J Plast Reconstr Aesthet Surg. 2012 Sep;65(9):e263-4. [PubMed: 22445693]

11.

Zimmerman B, Hubbard JB. StatPearls [Internet]. StatPearls Publishing; Treasure Island (FL): Jul 31, 2020. Deep Tendon Reflexes. [PubMed: 30285397]

12.

Demirhan M, Ersen A. Distal triceps ruptures. EFORT Open Rev. 2016 Jun;1(6):255-259. [PMC free article: PMC5367525] [PubMed: 28461956]

6. What Muscle Is Located on the Back of Your Arm?

Source: https://www.ncbi.nlm.nih.gov/books/NBK536996/

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