Latissimus dorsi muscle

Latissimus Dorsi

Latissimus dorsi

Muscles connecting the upper extremity to the vertebral column.
Details
Origin Spinous processes of vertebrae T7-T12, thoracolumbar fascia, iliac crest, inferior 3 or 4 ribs and inferior angle of scapula
Insertion Floor of intertubercular groove of the humerus
Artery Thoracodorsal branch of the subscapular artery
Nerve Thoracodorsal nerve
Actions Adducts, extends and internally rotates the arm when the insertion is moved towards the origin. When observing the muscle action of the origin towards the insertion, the lats are a very powerful rotator of the trunk.
Antagonist Deltoid and trapezius muscle
Identifiers
Latin Musculus latissimus dorsi
Dorlands
/Elsevier
m_22/12549548
TA A04.3.01.006
FMA 13357

Anatomical terms of muscle

The latissimus dorsi (/ˌləˈtɪsməs ˈdɒrs/) (plural: latissimi dorsi), meaning 'broadest [muscle] of the back' (Latin latus meaning 'broad', latissimus meaning 'broadest' and dorsum meaning the back), is the larger, flat, dorso-lateral muscle on the trunk, posterior to the arm, and partly covered by the trapezius on its median dorsal region. Latissimi dorsi are commonly known as "lats", especially among bodybuilders.

The latissimus dorsi is responsible for extension, adduction, transverse extension also known as horizontal abduction, flexion from an extended position, and (medial) internal rotation of the shoulder joint. It also has a synergistic role in extension and lateral flexion of the lumbar spine.

Due to bypassing the scapulothoracic joints and attaching directly to the spine, the actions the latissimi dorsi have on moving the arms can also influence the movement of the scapulae, such as their downward rotation during a pull up.

Structure

Variations

Axillary arches shown from two different angles.

The number of dorsal vertebrae to which it is attached varies from four to eight; the number of costal attachments varies; muscle fibers may or may not reach the crest of the ilium.

A muscular slip, the axillary arch, varying from 7 to 10 cm in length, and from 5 to 15 mm in breadth, occasionally springs from the upper edge of the latissimus dorsi about the middle of the posterior fold of the axilla, and crosses the axilla in front of the axillary vessels and nerves, to join the under surface of the tendon of the pectoralis major, the coracobrachialis, or the fascia over the biceps brachii. This axillary arch crosses the axillary artery, just above the spot usually selected for the application of a ligature, and may mislead a surgeon. It is present in about 7% of the population and may be easily recognized by the transverse direction of its fibers. Guy et al. extensively described this muscular variant using MRI data and positively correlated its presence with symptoms of neurological impingement.[1]

A fibrous slip usually passes from the upper border of the tendon of the Latissimus dorsi, near its insertion, to the long head of the triceps brachii. This is occasionally muscular, and is the representative of the dorsoepitrochlearis brachii of apes.[2][3] This muscular form is found in ~5% of humans and is sometimes termed the latissimocondyloideus.

The latissimus dorsi crosses the inferior angle of the scapula. A study found that, of 100 cadavers dissected:[4]

Triangles

Innervation

The latissimus dorsi is supplied by the sixth, seventh, and eighth cervical nerves through the thoracodorsal (long scapular) nerve. Electromyography suggests that it consists of six groups of muscle fibres that can be independently coordinated by the central nervous system.[5]

Function

The latissimus dorsi is responsible for extension, adduction, transverse extension also known as horizontal abduction, flexion from an extended position, and (medial) internal rotation of the shoulder joint. It also has a synergistic role in extension (posterior fibers) and lateral flexion (anterior fibers) of the lumbar spine, and assists as a muscle of both forced expiration (anterior fibers) and an accessory muscles of inspiration (posterior fibers).[6]

Most latissimus dorsi exercises concurrently recruit the teres major, posterior fibres of the deltoid, long head of the triceps brachii, among numerous other stabilizing muscles. Compound exercises for the 'lats' typically involve elbow flexion and tend to recruit the biceps brachii, brachialis, and brachioradialis for this function. Depending on the line of pull, the trapezius muscles can be recruited as well; horizontal pulling motions such as rows recruit both latissimus dorsi and trapezius heavily.

Training

The power/size/strength of this muscle can be trained with a variety of different exercises. Some of these include:

Lifting under control can help reduce chances of injury.

Clinical relevance

Tight latissimus dorsi has been shown to be one cause of chronic shoulder pain and chronic back pain.[7] Because the latissimus dorsi connects the spine to the humerus, tightness in this muscle can manifest as either sub-optimal glenohumeral joint (shoulder) function which leads to chronic pain or tendinitis in the tendinous fasciae connecting the latissimus dorsi to the thoracic and lumbar spine.[8]

The latissimuus dorsi is a potential source of muscle for breast reconstruction surgery after mastectomy or to correct pectoral hypoplastic defects such as Poland's syndrome.[9][10] An absent or hypoplastic latissimus dorsi can be one of the associated symptoms of Poland's syndrome.[11][12]

Cardiac support

For heart patients with low cardiac output and who are not candidates for cardiac transplantation, a procedure called cardiomyoplasty may support the failing heart. This procedure involves wrapping the latissimus dorsi muscles around the heart and electrostimulating them in synchrony with ventricular systole.

Additional images

See also

Wikimedia Commons has media related to Latissimus dorsi muscles.
This article uses anatomical terminology; for an overview, see Anatomical terminology.

References

This article incorporates text in the public domain from the 20th edition of Gray's Anatomy (1918)

  1. Guy MS, Sandhu SK, Gowdy JM, Cartier CC, Adams JH. MRI of the axillary arch muscle: prevalence, anatomic relations, and potential consequences. AJR Am J Roentgenol. 2011 Jan;196(1):W52-7.
  2. Haninec P, Tomás R, Kaiser R, Cihák R., Development and clinical significance of the musculus dorsoepitrochlearis in men, Clin Anat. 2009 May;22(4):481-8. PMID 19373904.
  3. Edwards, William E., The Musculoskeletal Anatomy of the Thorax and Brachium of an Adult Female Chimpanzee,6571st Aeromedical Research Laboratory, New Mexico, 1965.
  4. https://books.google.com/books?id=EGM73_guZB8C&pg=PA16&dq=latissimus+dorsi+scapula&hl=en&sa=X&ei=CDRSVeSOHpL0oAT32IGIBQ&ved=0CDUQ6AEwAg#v=onepage&q=latissimus%20dorsi%20scapula&f=false
  5. Brown JM, Wickham JB, McAndrew DJ, Huang XF. (2007). Muscles within muscles: Coordination of 19 muscle segments within three shoulder muscles during isometric motor tasks. J Electromyogr Kinesiol. 17(1):57-73. PMID 16458022 doi:10.1016/j.jelekin.2005.10.007
  6. Muscles Testing and Function With Posture and Pain. 2005. p. 238. ISBN 9780781747806.
  7. Arnheim, D.D., Prentice, W.E., Principles of athletic training. 9th ed. McGraw Hill, pp 570-574, 1997.
  8. Francis, P., Applied anatomy and kinesiology, supplemental materials. KB Books., p 19-25, 1999.
  9. Yang CE, Roh TS, Yun IS, Kim YS, Lew DH (2014). "Immediate partial breast reconstruction with endoscopic latissimus dorsi muscle flap harvest". Arch Plast Surg 41 (5): 513–9. doi:10.5999/aps.2014.41.5.513. PMC 4179355. PMID 25276643.
  10. Lantzsch T, Lampe D, Kantelhardt EJ (2013). "Correction of Poland's Syndrome: Case Report and Review of the Current Literature". Breast Care (Basel) 8 (2): 139–42. doi:10.1159/000350778. PMC 3683949. PMID 24419214.
  11. Masia J, Pons G, Loschi P, Sanchez Porro-Gil L, Nardulli ML, Olivares L (2015). "Autologous reconstruction of a complex form of Poland syndrome using 2 abdominal perforator free flaps". Ann Plast Surg 74 (5): 580–3. doi:10.1097/SAP.0b013e31829a39b1. PMID 24322640.
  12. Beer GM, Kompatscher P, Hergan K (1996). "Poland's syndrome and vascular malformations". Br J Plast Surg 49 (7): 482–4. PMID 8983554.

External links

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