Circumflex scapular vein

Medically Reviewed by Anatomy Team

The circumflex scapular vein is a vein that accompanies the circumflex scapular artery, located in the posterior region of the shoulder. It originates in the area around the scapula (shoulder blade), specifically from the venous drainage of the muscles and tissues surrounding the scapula. The vein runs through the triangular space formed by the teres major, teres minor, and long head of the triceps brachii muscles. It eventually drains into the subscapular vein, which in turn empties into the axillary vein. This vein is part of the venous system that serves the scapular and shoulder regions.

Location

The circumflex scapular vein is located in the posterior aspect of the shoulder, within the region surrounding the scapula (shoulder blade). It runs alongside the circumflex scapular artery and plays a key role in draining the venous blood from the tissues around the scapula. The vein is situated within the triangular space in the posterior shoulder, bordered by the teres major, teres minor, and the long head of the triceps brachii muscles. This space allows for the passage of both the circumflex scapular vein and artery.

Anatomy

Origin

The circumflex scapular vein originates from smaller venous tributaries that drain the muscles, connective tissues, and surrounding structures of the scapular region. These tributaries collect deoxygenated blood from the areas served by the circumflex scapular artery, primarily from the muscles such as the teres major, teres minor, and parts of the subscapularis muscle.

Course

The circumflex scapular vein runs through the triangular space in the posterior shoulder. This space is anatomically defined by the:

  • Teres major (inferior border),
  • Teres minor (superior border),
  • Long head of the triceps brachii (lateral border).

As the vein passes through this space, it travels medially, accompanying the circumflex scapular artery. After crossing the triangular space, the vein continues its path toward the anterior aspect of the shoulder, where it eventually drains into the larger subscapular vein.

Relations

  • Superior relations: The circumflex scapular vein is bordered superiorly by the teres minor muscle, a muscle that forms part of the rotator cuff and lies on the posterior surface of the scapula.
  • Inferior relations: The teres major muscle lies inferior to the vein as it traverses the triangular space. This muscle extends from the scapula to the humerus and contributes to the movement of the shoulder joint.
  • Lateral relations: The long head of the triceps brachii muscle lies laterally to the circumflex scapular vein. This muscle is one of the three heads of the triceps, responsible for extending the forearm at the elbow.
  • Medial relations: Medially, the circumflex scapular vein is related to the subscapularis muscle, part of the rotator cuff group of muscles, as it approaches the subscapular vein.

Tributaries

The circumflex scapular vein receives blood from multiple tributaries that drain various structures around the scapula, including:

  • Muscular tributaries: These veins drain the muscles surrounding the scapula, such as the teres major, teres minor, subscapularis, and parts of the infraspinatus muscle.
  • Periscapular veins: These small veins drain the skin and subcutaneous tissues overlying the scapula and contribute to the overall venous return from the shoulder and upper back.

Termination

The circumflex scapular vein terminates by draining into the subscapular vein. After crossing the triangular space and running alongside the circumflex scapular artery, the vein eventually enters the subscapular vein, which is part of the deep venous system of the shoulder. The subscapular vein then continues toward the axillary vein, which ultimately drains into the subclavian vein and the central venous circulation.

Surrounding Structures

  • Anteriorly: The circumflex scapular vein lies anterior to the subscapularis muscle as it approaches the subscapular vein. This muscle is positioned on the anterior surface of the scapula and is part of the rotator cuff.
  • Posteriorly: Posterior to the circumflex scapular vein is the scapula itself, along with the skin and subcutaneous tissues of the upper back.
  • Laterally: The long head of the triceps brachii muscle is positioned laterally to the circumflex scapular vein as it passes through the triangular space.
  • Medially: Medial to the vein is the scapula and the muscles attached to it, particularly the subscapularis muscle, as well as the pathway to the subscapular vein.

Communication with Other Veins

The circumflex scapular vein communicates with other veins of the shoulder and scapular region, including:

  • The subscapular vein, into which it drains.
  • Smaller tributary veins from the posterior shoulder and scapular area that contribute to the overall venous return from the shoulder.

Variations

The anatomy of the circumflex scapular vein may exhibit anatomical variations in terms of its size, course, and point of termination. In some individuals, the vein may be larger or smaller, depending on the extent of venous drainage in the region. Additionally, the precise location of the junction with the subscapular vein can vary slightly between individuals. In rare cases, the circumflex scapular vein may form anastomoses with nearby veins, such as the circumflex humeral veins or thoracodorsal veins.

Function

Venous Drainage of the Scapular Region

The primary function of the circumflex scapular vein is to drain venous blood from the scapular region, including the muscles and surrounding tissues of the shoulder blade (scapula). This vein collects deoxygenated blood from the superficial and deep tissues of the posterior shoulder and scapula, including muscles such as the teres major, teres minor, infraspinatus, and subscapularis. These muscles are involved in shoulder movement and stabilization, and the circumflex scapular vein ensures that the blood produced during metabolic activity in these muscles is efficiently returned to the central venous system.

Venous Return from Muscles of the Shoulder

The circumflex scapular vein is essential for draining blood from the muscles of the posterior shoulder, particularly those that are part of the rotator cuff and those that move or stabilize the scapula. These muscles, such as the teres major, teres minor, subscapularis, and infraspinatus, are heavily involved in the complex range of shoulder movements, including rotation and abduction. The circumflex scapular vein helps remove deoxygenated blood and metabolic waste from these muscles, facilitating muscle recovery and maintaining circulation in the shoulder region during and after physical activity.

Communication with the Subscapular Vein

The circumflex scapular vein plays a key role in communicating with the subscapular vein, into which it drains. The subscapular vein is part of the deep venous system of the shoulder and upper back, and the circumflex scapular vein contributes to the venous return by feeding blood into this larger vein. By doing so, it ensures that the venous blood from the scapular region is efficiently transported toward the axillary vein, which ultimately drains into the subclavian vein. This communication is crucial for maintaining efficient venous return from the upper back and shoulder regions.

Supporting Venous Return During Shoulder Movements

During physical activities involving the shoulder, such as lifting, pulling, or rotating the arm, the circumflex scapular vein supports venous return through the muscle pump mechanism. As muscles like the teres major and teres minor contract, they compress the surrounding veins, including the circumflex scapular vein, which helps push blood upward toward the subscapular and axillary veins. This mechanism assists in overcoming the effects of gravity and ensures that blood from the scapular region is returned efficiently to the heart, especially during movements that require significant shoulder muscle engagement.

Venous Drainage from the Infraspinatus and Teres Muscles

The circumflex scapular vein plays a crucial role in the drainage of venous blood from the infraspinatus and teres muscles. The infraspinatus, part of the rotator cuff group, is responsible for external rotation of the arm, while the teres major and teres minor contribute to the movement and stabilization of the shoulder joint. During muscle contraction, metabolic byproducts and deoxygenated blood accumulate in these muscles, and the circumflex scapular vein helps remove this blood, maintaining circulation and preventing venous stasis.

Thermoregulation

Though not a primary function, the circumflex scapular vein contributes to thermoregulation by transporting blood from the scapular region toward larger venous channels. Superficial veins in the body, including those around the scapula, help regulate body temperature by dissipating heat. When the body is exposed to high temperatures or during intense physical activity, increased blood flow through veins like the circumflex scapular vein helps cool the body by allowing heat to dissipate through the skin. This vein, therefore, plays a role in maintaining optimal body temperature, particularly during physical exertion.

Redistribution of Venous Blood

The circumflex scapular vein is involved in the redistribution of venous blood within the scapular region. By collecting blood from smaller tributaries, including the muscular veins and periscapular veins, and draining it into the subscapular vein, the circumflex scapular vein ensures that blood flows efficiently from different parts of the scapular area. This redistribution prevents blood pooling in any one area, reduces venous pressure, and promotes healthy circulation throughout the shoulder and upper back.

Role in Venous Pressure Regulation

The circumflex scapular vein helps to regulate venous pressure in the posterior shoulder and scapular region. As part of the larger venous system, it communicates with both the superficial and deep venous systems, helping to balance venous return from the muscles and tissues around the scapula. If pressure increases in one part of the venous network due to muscle contraction, physical activity, or positional changes, the circumflex scapular vein allows blood to be redirected to lower-pressure areas, maintaining stable blood flow and preventing venous congestion in the shoulder area.

Drainage from the Skin and Subcutaneous Tissues

In addition to draining the deeper muscles of the scapula, the circumflex scapular vein also plays a role in draining the skin and subcutaneous tissues overlying the scapular region. Superficial veins from the skin and tissues over the scapula feed into the circumflex scapular vein, allowing for the efficient removal of deoxygenated blood from both the deeper and superficial layers of the shoulder area. This dual role in draining both muscular and superficial tissues helps maintain overall circulation in the shoulder and upper back.

Contribution to the Central Venous System

Ultimately, the circumflex scapular vein’s most critical function is its role in contributing to the central venous system. After draining blood from the scapular region, the circumflex scapular vein empties into the subscapular vein, which in turn drains into the axillary vein. This process ensures that deoxygenated blood from the upper back and shoulder is efficiently returned to the heart, where it can be reoxygenated. By serving as a conduit between the scapular region and the central venous system, the circumflex scapular vein plays an essential part in maintaining systemic circulation.

Clinical Significance

The circumflex scapular vein holds clinical significance due to its role in surgeries and medical conditions involving the shoulder and scapular region. During surgical procedures like shoulder arthroscopy, rotator cuff repairs, or scapular fracture repair, the circumflex scapular vein may be encountered or at risk of injury. Surgeons must be aware of its location, particularly as it runs through the triangular space, to avoid complications such as bleeding or hematoma formation.

The vein is also involved in scapular flap surgeries, where it serves as a key vessel for venous drainage. Flaps involving the scapular region, such as in reconstructive procedures following trauma or cancer resection, rely on the integrity of the circumflex scapular vein for successful outcomes. Its connections to the subscapular and axillary veins make it an important part of the vascular network in the upper back and shoulder, requiring careful consideration in both trauma and reconstructive surgery.

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