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Teres minor muscle

Teres minor muscle
Teres minor muscle (shown in red), seen from behind.
Muscles on the dorsum of the left scapula, and the Triceps brachii muscle:
#3 is Latissimus dorsi muscle
#5 is Teres major muscle
#6 is Teres minor muscle
#7 is Supraspinatus muscle
#8 is Infraspinatus muscle
#13 is long head of Triceps brachii muscle
Details
OriginLateral border of the scapula
InsertionInferior facet of greater tubercle of the humerus
ArteryPosterior circumflex humeral artery and the circumflex scapular artery
NerveAxillary nerve (C5-C6)
ActionsLaterally rotates the arm, stabilizes humerus
Identifiers
Latinmusculus teres minor
TA98A04.6.02.010
TA22459
FMA32550
Anatomical terms of muscle

The teres minor (Latin teres meaning 'rounded') is a narrow, elongated muscle of the rotator cuff. The muscle originates from the lateral border and adjacent posterior surface of the corresponding right or left scapula and inserts at both the greater tubercle of the humerus and the posterior surface of the joint capsule.[1]

The primary function of the teres minor is to modulate the action of the deltoid, preventing the humeral head from sliding upward as the arm is abducted. It also functions to rotate the humerus laterally. The teres minor is innervated by the axillary nerve.[2]

Structure

It arises from the dorsal surface of the axillary border of the scapula for the upper two-thirds of its extent, and from two aponeurotic laminae, one of which separates it from the infraspinatus muscle, the other from the teres major muscle.

Its fibers run obliquely upwards and laterally; the upper ones end in a tendon which is inserted into the lowest of the three impressions on the greater tubercle of the humerus; the lowest fibers are inserted directly into the humerus immediately below this impression.

A normal anatomical variant of this is a much smaller appearing muscle with an intact tendon. This is referred to as the teres minimis; some literature refer to it as teres micro.

Relations

The teres minor originates at the lateral border and adjacent posterior surface of the scapula. It inserts at the greater tubercle of the humerus. The tendon of this muscle passes across, and is united with, the posterior part of the capsule of the shoulder-joint.

Innervation

The muscle is innervated by the posterior branch of axillary nerve where it forms a pseudoganglion.[3] A pseudoganglion has no nerve cells but nerve fibres are present. Damage to the fibers innervating the teres minor is clinically significant.

Variation

Sometimes a group of muscle fibres from teres minor may be fused with infraspinatus.

Function

The infraspinatus and teres minor attach to head of the humerus; as part of the rotator cuff they help hold the humeral head in the glenoid cavity of the scapula. They work in tandem with the posterior deltoid to externally (laterally) rotate the humerus, as well as adduction. Teres Minor can produce only very small scapular plane adduction during maximal contraction (Hughes RE, An KN 1996) with adductor moment arm of approximately 0.2 cm at 45° of shoulder internal rotation and approximately 0.1 cm at 45° of shoulder external rotation.

Clinical significance

Injury

There are two types of rotator cuff injuries: acute tears and chronic tears.

Acute tears occur as a result of a sudden movement. This might include throwing a powerful pitch, holding a fast moving rope during water sports, falling over onto an outstretched hand at speed, or making a sudden thrust with the paddle in kayaking.

A chronic tear develops over a period of time. They usually occur at or near the tendon, as a result of the tendon rubbing against the underlying bone.[4] The teres minor is typically normal following a rotator cuff tear.[5]

Imaging

Conjoint and intact tendon disc of teres minor and infraspinatus muscle.
Intact teres minor tendon with physiologically hypointense signal.
Hyperintense, fatty degenerated teres minor muscle.

Atrophy of the teres minor muscle is often a consequence of a rotator cuff tear, but common isolated teres minor atrophies have also been found. A quadrangular space syndrome causes excessive and or chronically compression of the structures which pass through this anatomical tunnel. The axillary nerve and the posterior humeral circumflex artery pass through the space. People affected note shoulder pain and paresthesia down the arm first and foremost in abduction, extension, external rotation and overhead activity. Selective atrophy of the teres minor muscle has been seen and pulled together directly with compression of the corresponding axillary nerve branch or posterior humeral circumflex artery. Fibrous bands, cysts of the glenoid labrum, lipoma or dilated veins can occupy the quadrilateral space pathologically. Similar symptoms are common with anterior shoulder dislocation, humeral neck fracture, brachial plexus injury and thoracic outlet and inlet syndrome. It is important to include those pathologies for a complete as possible differential diagnosis.

Ultrasonography is a tool to detect a fatty degenerative atrophy of the teres minor and shows in affected muscles increased echogenicity and betimes a slight reduction in muscle bulk. MR imaging helps to consolidate the diagnosis of neurogenic muscle atrophy. Extracellular edema after traumatic events causing neural damage show an increased signal intensity on T2-weighted MRI sequences and normal intensity on T1-weighted sequences. Posterior humeral circumflex artery compression and reduced blood flow in stressful arm positions and or maneuvers can be diagnosed by a Doppler ultrasonography. The nerve should be detected adjacent to the vessel. In an elevated arm position the axillary neurovascular bundle can be seen at the posterior axillary fold just before it perforates the deltoideus, while the posterior course is well visible in the neutral position. For a detailed assessment of the artery, a MR angiography is required. The major task of an ultrasonographic examination is to rule out any space occupying mass. Additional electromyography is helpful to reveal any decelerated nerve conduction velocity, and thus denervation of the concerned muscle.[6]

Additional images

See also

References

Public domain This article incorporates text in the public domain from page 441 of the 20th edition of Gray's Anatomy (1918)

  1. ^ Saladin, Kenneth (2015). Anatomy & Physiology: The Unity of Form and Function (7 ed.). New York: McGraw-Hill Education. p. 345. ISBN 9780073403717.
  2. ^ Saladin, Kenneth (2015). Anatomy & Physiology: The Unity of Form and Function (7 ed.). New York: McGraw-Hill Education. p. 345. ISBN 9780073403717.
  3. ^ Gitlin, G (October 1957). "Concerning the gangliform enlargement (pseudoganglion) on the nerve to the teres minor muscle". Journal of Anatomy. 91 (4): 466–70. PMC 1244902. PMID 13475146.
  4. ^ Bahr, Ronald. Ed. Clinical Guide to Sports Injuries. Gazette bok. ISBN 0-7360-4117-6.
  5. ^ Melis, Barbara; DeFranco, Michael; Ladermann, Alexandre; Barthelemy, Renaud; Walch, Gilles (2011). "The teres minor muscle in rotator cuff tendon tears". Skeletal Radiology. 40 (10): 1335–1344. doi:10.1007/s00256-011-1178-3. PMID 21604212. S2CID 8639793. Retrieved 28 November 2016.
  6. ^ Brestas, P.S.; et al. (September 2006). ". Ultrasound findings of teres minor denervation in suspected quadrilateral space syndrome". J Clin Ultrasound. 34 (7): 343–7. doi:10.1002/jcu.20239. PMID 16869012. S2CID 6341877.