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Thoracodorsal nerve

The thoracodorsal nerve, also known as the middle subscapular nerve or long subscapular nerve, is a purely motor branch of the of the that arises from roots C6, C7, and C8 (with C7 predominant) and provides exclusive innervation to the , enabling key movements of the including adduction, extension, and medial rotation. Originating in the apex of the , the nerve descends along the posterior wall of the , initially lying posterior to the and between the upper and lower , before crossing anterior to the and passing beneath the inferior border of the to pierce the upper portion of the latissimus dorsi. It travels as part of a with the and veins, giving off small terminal muscular branches upon entering the latissimus dorsi without any sensory components or additional branches. In clinical contexts, the thoracodorsal nerve is vulnerable to iatrogenic injury during axillary dissections or surgeries involving the posterior , potentially leading to weakness or of the latissimus dorsi and impaired function. It is routinely preserved during harvest of latissimus dorsi musculocutaneous flaps for reconstructive procedures, such as , to maintain muscle integrity. Additionally, due to its length and accessibility, the nerve is occasionally used as a donor for interposition grafts in repairs of other peripheral nerves, including the . Anatomical variations may occur, such as origins from the or shared trunks with , which can impact surgical planning.

Anatomy

Origin

The thoracodorsal nerve, also known as the middle or long , originates as a branch of the of the within the apex of the . This purely motor emerges typically as the second branch from the posterior cord, following the and preceding the and . At its point of origin, the nerve lies posterior to the , which arises from the third part of the , establishing an early neurovascular relationship along the posterior axillary wall. The nerve is composed primarily of axons derived from the anterior rami of spinal nerves , C7, and C8, with C7 providing the predominant contribution in most individuals. Structurally, the thoracodorsal nerve arises as a single trunk with a mean of approximately 2.3 mm at its origin. In cross-section, the nerve typically comprises 1 to 4 fascicles, with 2 fascicles being the most common configuration observed in anatomical dissections. This fascicular arrangement supports its role in transmitting motor fibers destined for the , while its proximal positioning relative to the facilitates coordinated descent through the .

Course

The thoracodorsal nerve descends inferiorly through the along the posterior wall, which is formed by the , teres major, and latissimus dorsi muscles. It typically travels anterior to the , crossing the inferior margin of the teres major before reaching its destination. The nerve lies between the upper and lower throughout much of its course and is surrounded by axillary fat and lymph nodes, including subscapular lymph nodes. The nerve accompanies the and veins initially, positioned posterior to these vessels near its emergence from the . As it progresses, it crosses anterior to the artery, which becomes the , and travels with the and vein, lying superficial to these vessels, to form a located posterior and lateral to the lateral thoracic vein approximately 2 cm from its confluence with the . The thoracodorsal nerve has an approximate length of 10 to 15 cm from its origin to entry into the , with a mean reported as 12.5 to 13.7 cm in anatomical studies. In standard , it may give off branches en route proximal to the latissimus dorsi hilum. It pierces the latissimus dorsi muscle on its deep, tendinous medial surface near the inferior angle of the or along the lateral border.

Distribution

The thoracodorsal nerve provides motor innervation exclusively to the , approaching and entering it on its deep (medial) surface. This nerve is purely motor in nature, carrying no sensory fibers to the skin or other structures. The nerve typically penetrates the at a point approximately 13 cm caudal to the muscle's humeral insertion, often along its tendinous medial aspect near the lower border. Upon entry, it divides into terminal branches—commonly 1 to 3 in number—that fan out to supply the superior, middle, and inferior segments of the muscle, ensuring comprehensive across its expanse. These branches may arise proximal to the muscle hilum, allowing for distributed innervation within the muscle's substance.

Function

Innervation

The thoracodorsal nerve functions as a pure motor nerve, exclusively transmitting efferent signals from the to the . It carries alpha motor neurons that originate from the anterior horn cells in the segments through C8, forming part of the hypaxial motor column responsible for innervating limb and trunk musculature. These large, multipolar alpha motor neurons are the primary effectors for voluntary control, with their axons bundling into the of the before diverging as the thoracodorsal nerve. At the target site, the nerve's axons penetrate the and at specialized neuromuscular junctions distributed throughout its fascicles. This synaptic transmission occurs via the release of from presynaptic vesicles in the motor nerve terminals, which binds to nicotinic receptors on the postsynaptic muscle membrane, depolarizing the fiber and initiating . The process ensures precise, rapid activation of the muscle's extrafusal fibers, supporting forceful movements without intermediary modulation. Unlike mixed nerves, the thoracodorsal nerve lacks any autonomic or sensory components, containing solely motor fibers. Consequently, it provides no direct proprioceptive feedback from the latissimus dorsi, with such sensory input derived instead from adjacent spinal nerves. Electrophysiologically, the motor fibers exhibit a conduction velocity of approximately 50 to 60 m/s, consistent with myelinated alpha axons in peripheral motor pathways.

Physiological Role

The thoracodorsal nerve innervates the , enabling its primary contributions to biomechanics at the glenohumeral joint. Through this motor supply, the nerve facilitates adduction, medial (internal) rotation, and extension of the , with maximal force generated from starting positions of partial flexion or . These actions are essential for powerful pulling and stabilizing motions, integrating the latissimus dorsi with synergistic scapulothoracic muscles such as the teres major, whose adjoining fibers form the posterior axillary fold to enhance overall function. Beyond arm movement, the thoracodorsal nerve supports the latissimus dorsi's role as an accessory respiratory muscle, particularly in forced . By contracting, the muscle elevates the via its attachments to the inferior (typically the 9th through 12th), aiding , coughing, and sneezing to increase thoracic volume and facilitate airflow. This respiratory assistance complements the muscle's biomechanical duties, underscoring its multifunctional integration in thoracoappendicular dynamics. In practical applications, the thoracodorsal nerve's control of the latissimus dorsi is vital for activities involving overhead arm fixation, such as , where it elevates the trunk alongside the ; pulling motions like chin-ups; and downstrokes that demand coordinated adduction and extension. These roles highlight the nerve's contribution to efficient energy transfer across the upper body, promoting stability and power in compound movements.

Clinical Significance

Injury

Injury to the thoracodorsal nerve most commonly occurs iatrogenically during axillary dissection for surgery, where the nerve's course along the posterior axillary wall places it at risk of transection or stretch during tissue clearance. represents another mechanism, including shoulder dislocations that can involve traction on the posterior cord or direct penetration such as stab wounds to the . Isolated thoracodorsal nerve injury is rare and typically arises as part of broader posterior cord lesions in , rather than in isolation. Symptoms of thoracodorsal nerve damage primarily manifest as weakness in arm adduction and extension due to impaired latissimus dorsi function, with patients often experiencing difficulty rising from a seated position or performing overhead activities. Over time, leads to progressive of the , resulting in a flattened posterior axillary fold and reduced stability. Diagnosis relies on clinical evaluation, including tests for latissimus dorsi strength such as resisted adduction with the arm extended and forearm supinated (adduction lag sign), where inability to maintain position against gravity indicates dysfunction. (EMG) confirms the injury by demonstrating potentials, such as fibrillation and positive sharp waves, specifically in the , often compared bilaterally for asymmetry.

Surgical Considerations

Preservation of the thoracodorsal nerve is critical during harvest of the latissimus dorsi myocutaneous flap for post-mastectomy to minimize donor site morbidity and maintain function. Muscle-sparing techniques that avoid thoracodorsal nerve division allow for nearly complete recovery of shoulder strength and in the long term, reducing complications such as or aesthetic at the donor site. Although some approaches intentionally divide the nerve to prevent animation , preservation prioritizes functional outcomes by preserving innervation to the . The thoracodorsal nerve serves as a donor in nerve grafts for reanimation procedures, often coapted to branches of the or to restore dynamic movement, particularly in cases of established . For instance, thoracodorsal nerve funicular grafts combined with transfer enable reconstruction of multiple facial expressions while limiting donor morbidity. In brachial plexus repair, transfers involving the thoracodorsal nerve, such as the lateral branch to the or to the , effectively restore elbow flexion and shoulder stability after traumatic injuries. Surgical identification of the thoracodorsal nerve relies on its consistent anatomical relation to vascular structures, as it parallels and follows the and vein along the posterior axillary wall. A key landmark is its position posterior and lateral to the lateral thoracic vein, approximately 2 cm from the vein's with the , facilitating location during level III axillary dissections. In such dissections, the nerve typically lies inferior to the , aiding precise isolation to avoid iatrogenic damage. Intraoperative protection techniques, such as encircling the thoracodorsal nerve with a vessel loop, enhance visibility and retraction while minimizing traction during flap elevation or axillary clearance. Postoperatively, for neuropraxia involves serial clinical assessments of adduction and internal strength, as transient dysfunction may resolve within weeks but requires early intervention if persistent. can confirm conduction integrity if symptoms like donor site weakness emerge, guiding to restore latissimus dorsi . In thoracic surgery, the thoracodorsal nerve plays a key role in latissimus dorsi muscle transfers for cough augmentation, particularly in patients with impaired respiratory mechanics such as those with injuries or diaphragmatic . The innervated latissimus dorsi flap is transposed to support expiratory force, enhancing efficacy by leveraging the muscle's accessory role in forceful . This application preserves nerve integrity to ensure dynamic , improving ventilatory support without compromising donor site viability.

Anatomical Variations

Types of Variations

The thoracodorsal nerve exhibits anatomical variations in approximately 25-30% of cases based on cadaveric dissections, with deviations primarily affecting its origin, root contributions, branching, and course. Origin variations include the nerve arising directly from the rather than the , reported in 10.7-23% of specimens across studies. In rarer instances, it emerges from a common trunk shared with the , occurring in 1.3-12.5% of cases. Direct origin from the C7 spinal root alone is uncommon, noted in about 5% of dissections. Root contributions to the thoracodorsal nerve show atypical patterns beyond the typical C6-C8 input, such as exclusive C7-C8 fibers in 60% of cases or C6-C7 without C8 in 10%. These variations can alter the nerve's fiber composition, with C7 providing the dominant contribution (over 50% of motor fibers) in most specimens. Branching patterns deviate from a single trunk, with proximal branches extending to the occur in 10-20% of cases.

Clinical Relevance

Anatomical variations in the origin of the thoracodorsal nerve increase the of iatrogenic injury during axillary clearance procedures, such as in surgery, where aberrant positioning can lead to inadvertent damage. For instance, the nerve may course posterior to the thoracodorsal vessels in approximately 11% of cases (based on a study of 63 axillary dissections), making it prone to being overlooked and sectioned during dissection, potentially resulting in latissimus dorsi weakness and impaired shoulder function. This variant anatomy heightens the challenge of achieving oncological clearance without compromising motor outcomes, as documented in surgical studies emphasizing the need for vigilant intraoperative identification. Preoperative imaging with MRI or ultrasound is recommended to map these variations prior to latissimus dorsi flap surgery, thereby minimizing denervation rates and preserving muscle viability. Color Doppler ultrasonography, in particular, allows visualization of the thoracodorsal pedicle and adjacent nerve pathways, facilitating precise flap planning. Such imaging techniques enable surgeons to anticipate atypical nerve trajectories, enhancing the safety and reliability of reconstructive procedures. Recent case reports highlight the critical role of these variations in managing extensive axillary disease, where an aberrant posterior course of the nerve was identified during axillary , emphasizing the need for variant-aware strategies to prevent . In one documented instance involving a with advanced , careful preserved nerve function despite the anomaly, avoiding postoperative latissimus dorsi impairment. These reports reinforce the evolving clinical focus on personalized surgical approaches informed by anatomical diversity.

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