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The gracilis muscle (/ˈɡræsɪlɪs/; Latin for "slender") is the most superficial muscle on the medial side of the thigh. It is thin and flattened, broad above, narrow and tapering below.

Gracilis muscle
The gracilis and nearby muscles
Cross-sectional diagram of the right mid-thigh. The gracilis is labeled on the far right.
Details
OriginIschiopubic ramus
InsertionTibia (pes anserinus)
ArteryMedial circumflex femoral artery
NerveAnterior branch of obturator nerve
ActionsFlexes, medially rotates, and adducts the hip
Identifiers
Latinmusculus gracilis
MeSHD000071976
TA98A04.7.02.030
TA22635
FMA43882
Anatomical terms of muscle

Structure

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It arises by a thin aponeurosis from the anterior margins of the lower half of the symphysis pubis and the upper half of the pubic arch.

The muscle's fibers run vertically downward, ending in a rounded tendon. This tendon passes behind the medial condyle of the femur, curves around the medial condyle of the tibia where it becomes flattened, and inserts into the upper part of the medial surface of the body of the tibia, below the condyle. For this reason, the muscle is a lower limb adductor. At its insertion the tendon is situated immediately above that of the semitendinosus muscle, and its upper edge is overlapped by the tendon of the sartorius muscle, which it joins to form the pes anserinus. The pes anserinus is separated from the medial collateral ligament of the knee-joint by a bursa.

A few of the fibers of the lower part of the tendon are prolonged into the deep fascia of the leg.

Relations

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By its inner or superficial surface gracilis is in relation with the fascia lata, and below with the sartorius and internal saphenous nerve; the internal saphenous vein crosses it lying superficially to the fascia lata.

By its outer or deep surface with the adductor longus, brevis, and magnus, and the internal lateral ligament of the knee-joint, from which it is separated by a synovial bursa common to the tendons of the gracilis and semitendinosus.[1]

Nerve supply

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The obturator nerve innervates the gracilis muscle via the lumbar spinal vertebrae.

Function

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The muscle adducts, medially rotates (with hip flexion), laterally rotates, and flexes the hip as above, and also aids in flexion of the knee.[2]

Clinical significance

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The gracilis muscle is commonly used as a flap in microsurgery. According to the classification of Mathes and Nahai, it presents a type II blood supply, allowing it to be transferred on its artery derived from the medial circumflex femoral artery. This artery enters the muscle about 10 cm from the pubic symphysis. At this point (or 1 cm proximal) the nerve also enters.

Gracilis muscle is widely used in reconstructive surgery (graciloplasty), either as a pedicled flap or as a free microsurgical flap. Both pedicled and free flaps can be muscular or musculocutaneous (the so- called "composite flaps"). As a pedicled flap, gracilis muscle can be used in perineal and vaginal reconstruction, after oncological surgery, in the treatment of recurrent anovaginal and rectovaginal fistulas as well in the coverage of the neurovascular bundle after vascular surgery.[3]

As a functioning pedicled flap, the gracilis muscle can be transferred for the treatment of anal incontinence. This technique called graciloplasty was described in the 1950s by Pickrell and was revolutionized in the late 1980s by the introduction of chronic muscle electro-stimulation. The gracilis microsurgical free flap is commonly used in the reconstruction of upper and lower limbs, in breast reconstruction and – as a free functioning flap – to restore forearm function or in dynamic reconstruction of facial paralysis.

Transplantation sites

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The muscle may be split to reduce bulk for facial reanimation, as well as to repair hand muscles. It can be used to fashion an external anal sphincter.[4]

Additional images

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See also

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Gracilis Muscles Clinical Role Archived 2008-11-21 at the Wayback Machine

References

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Public domain  This article incorporates text in the public domain from page 471 of the 20th edition of Gray's Anatomy (1918)

  1. ^ Wilson, Erasmus (1851) The anatomist's vade mecum: a system of human anatomy, p 261
  2. ^ "Hamstrings Times Two, muscles synergistic to the hamstrings". T-nation.com. 2006-03-03. Retrieved 2012-10-23.
  3. ^ "Gracilis muscles clinical role. Computed Tomography (CT) angiography". Pelviperineology.org. 2007-12-04. Archived from the original on 2008-11-21. Retrieved 2012-10-23.
  4. ^ Moore, Keith (2007). Essential Clinical Anatomy, 3rd ed. Lippincott Williams & Wilkins.[page needed]
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