Abdominal internal oblique muscle

The abdominal internal oblique muscle, also internal oblique muscle or interior oblique, is an abdominal muscle in the abdominal wall that lies below the external oblique muscle and just above the transverse abdominal muscle.

Abdominal internal oblique muscle
The abdominal internal oblique muscle.
Muscles of the trunk.
Details
OriginInguinal ligament, Iliac crest and the Lumbodorsal fascia.
InsertionLinea alba, Pectineal Line of Pubis (via Conjoint tendon) and ribs 10-12.
ArterySubcostal arteries.
NerveThoracoabdominal nn. (T7-T11), Subcostal n. (T12), Iliohypogastric n. (L1) and Ilioinguinal n. (L1)
ActionsBilateral: Compresses abdomen Unilateral: Ipsilateral trunk rotation
Identifiers
LatinMusculus obliquus internus abdominis
TA98A04.5.01.017
TA22373
FMA13891
Anatomical terms of muscle

Structure

Its fibers run perpendicular to the external oblique muscle, beginning in the thoracolumbar fascia of the lower back, the anterior 2/3 of the iliac crest (upper part of hip bone) and the lateral half of the inguinal ligament. The muscle fibers run from these points superiomedially (up and towards midline) to the muscle's insertions on the inferior borders of the 10th through 12th ribs and the linea alba.

In males, the cremaster muscle is also attached to the internal oblique.

Nerve supply

The internal oblique is supplied by the lower intercostal nerves, as well as the iliohypogastric nerve and the ilioinguinal nerve.

Function

The internal oblique performs two major functions. Firstly as an accessory muscle of respiration, it acts as an antagonist (opponent) to the diaphragm, helping to reduce the volume of the chest cavity during exhalation. When the diaphragm contracts, it pulls the lower wall of the chest cavity down, increasing the volume of the lungs which then fill with air. Conversely, when the internal obliques contract they compress the organs of the abdomen, pushing them up into the diaphragm which intrudes back into the chest cavity reducing the volume of the air-filled lungs, producing an exhalation.

Secondly, its contraction causes ipsilateral rotation and side-bending. It acts with the external oblique muscle of the opposite side to achieve this torsional movement of the trunk. For example, the right internal oblique and the left external oblique contract as the torso flexes and rotates to bring the left shoulder towards the right hip. For this reason, the internal obliques are referred to as "same-side rotators."

See also

References

  • Moore, Keith L; & Dalley Arthur R (2006). Clinically Oriented Anatomy (5th ed.). Lippincott Williams and Wilkins. ISBN 0-7817-3639-0.
  • Abdominal, unm.edu

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