Lumbricals of the hand

The lumbricals are intrinsic muscles of the hand that flex the metacarpophalangeal joints,[1] and extend the interphalangeal joints.[1][2]

Lumbricals of the hand
The muscles of the left hand. Palmar surface. (first lumbricalis labeled at bottom right of muscular group)
Details
Originflexor digitorum profundus
Insertionextensor expansion
Arterysuperficial palmar arch, common palmar digital arteries, deep palmar arch, dorsal digital artery
NerveThird and fourth deep branch of ulnar nerve, first and second median nerve
Actionsflex metacarpophalangeal joints, extend interphalangeal joints
Identifiers
Latinmusculi lumbricales manus
TA98A04.6.02.065
TA22532
FMA37385
Anatomical terms of muscle

The lumbrical muscles of the foot also have a similar action, though they are of less clinical concern.

Structure

The lumbricals are four, small, worm-like muscles on each hand. These muscles are unusual in that they do not attach to bone. Instead, they attach proximally to the tendons of flexor digitorum profundus,[1][2][3] and distally to the extensor expansions.[1][3] The first and second lumbricals are unipennate, while the third and fourth lumbricals are bipennate.[2][4]

#FormOriginInsertion
FirstunipennateIt originates from the radial side of the most radial tendon of the flexor digitorum profundus (corresponding to the index finger).It passes posteriorly along the radial side of the index finger to insert on the extensor expansion near the metacarpophalangeal joint.
SecondunipennateIt originates from the radial side of the second most radial tendon of the flexor digitorum profundus (which corresponds to the middle finger).It passes posteriorly along the radial side of the middle finger and inserts on the extensor expansion near the metacarpophalangeal joint.
ThirdbipennateOne head originates on the radial side of the flexor digitorum profundus tendon corresponding to the ring finger, while the other originates on the ulnar side of the tendon for the middle finger.The muscle passes posteriorly along the radial side of the ring finger to insert on its extensor expansion.
FourthbipennateOne head originates on the radial side of the flexor digitorum profundus tendon corresponding to the little finger, while the other originates on the ulnar side of the tendon for the ring finger.The muscle passes posteriorly along the radial side of the little finger to insert on its extensor expansion.
Lumbricals labeled at bottom left. Left hand, palmar view.

Nerve supply

The first and second lumbricals (the most radial two) are innervated by the median nerve. The third and fourth lumbricals (most ulnar two) are innervated by the deep branch of ulnar nerve.[5]

This is the usual innervation of the lumbricals (occurring in 60% of individuals). However 1:3 (median:ulnar - 20% of individuals) and 3:1 (median:ulnar - 20% of individuals) also exist. The lumbrical innervation always follows the innervation pattern of the associated muscle unit of flexor digitorum profundus (i.e. if the muscle units supplying the tendon to the middle finger are innervated by the median nerve, the second lumbrical will also be innervated by the median nerve).[6]

Blood supply

Four separate sources supply blood to these muscles: the superficial palmar arch, the common palmar digital artery, the deep palmar arch, and the dorsal digital artery.[7]

Function

The lumbrical muscles, with the help of the interosseous muscles, simultaneously flex the metacarpophalangeal joints while extending both interphalangeal joints of the digit on which it inserts. The lumbricals are used during an upstroke in writing.

Etymology

The term "lumbrical" comes from the Latin, meaning "worm".[8]

Additional images

References

  1. Gosling JA, Harris PF, Humpherson JR, Whitmore I, Willan PL (2008). Human Anatomy: Color Atlas and Textbook (5th ed.). Philadelphia: Mosby. ISBN 978-0-7234-3451-1. p. 97
  2. Bilge O, Pinar Y, Ozer MA, Govsa F (October 2007). "The vascular anatomy of the lumbrical muscles in the hand". Journal of Plastic, Reconstructive & Aesthetic Surgery. 60 (10): 1120–6. doi:10.1016/j.bjps.2006.06.023. PMID 17825776.
  3. Wang K, McGlinn EP, Chung KC (January 2014). "A biomechanical and evolutionary perspective on the function of the lumbrical muscle". The Journal of Hand Surgery. 39 (1): 149–55. doi:10.1016/j.jhsa.2013.06.029. PMC 4155599. PMID 24369943.
  4. Schweizer A (April 2003). "Lumbrical tears in rock climbers". Journal of Hand Surgery. 28 (2): 187–9. CiteSeerX 10.1.1.539.6140. doi:10.1016/S0266-7681(02)00250-4. PMID 12631495. S2CID 244111.
  5. Lauritzen RS, Szabo RM, Lauritzen DB (February 1996). "Innervation of the lumbrical muscles". Journal of Hand Surgery (Edinburgh, Scotland). 21 (1): 57–8. doi:10.1016/s0266-7681(96)80013-1. PMID 8676031. S2CID 8084761.
  6. Sinnatamby CS (1999). Last's Anatomy: Regional and Applied (10th ed.). Edinburgh: Churchill Livingstone. pp. 64, 82. ISBN 978-0-443-05611-6.
  7. Zbrodowski A, Mariéthoz E, Bednarkiewicz M, Gajisin S (June 1998). "The blood supply of the lumbrical muscles". Journal of Hand Surgery. 23 (3): 384–8. doi:10.1016/S0266-7681(98)80063-6. PMID 9665531. S2CID 26384944.
  8. Bozer, Cüneyt; Uzmansel, Deniz; Dönmez, Didem; Parlak, Muhammed; Beger, Orhan; Elvan, Özlem (2018-12-01). "The effects of the communicating branch between medial and lateral plantar nerves on the innervations of the foot lumbrical muscles". Journal of the Anatomical Society of India. 67 (2): 130–132. doi:10.1016/j.jasi.2018.11.006. ISSN 0003-2778. S2CID 81678124.
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