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Sternocleidomastoid muscle

The sternocleidomastoid muscle (SCM) is a prominent, long, and superficial bilateral muscle in the anterior neck, characterized by two distinct heads that converge into a single . It originates from the superior aspect of the anterior manubrium sterni (sternal head) and the superior surface of the medial third of the (clavicular head), inserting on the lateral surface of the mastoid process of the and the lateral half of the superior nuchal line of the . This muscle divides the neck into anterior and posterior triangles, serving as a key anatomical landmark for surgical and clinical procedures in the region. The SCM exhibits versatile functions depending on unilateral or bilateral activation. When acting unilaterally, it flexes the laterally toward the same side and rotates the head to the contralateral side, facilitating movements such as turning the face away from the contracting muscle. Bilaterally, it flexes the lower cervical spine while extending the upper cervical spine and elevates the and , contributing to deep inspiration and overall neck flexion. It is innervated primarily by the (cranial nerve XI) for motor function, with additional sensory and proprioceptive input from branches of the (C2-C3). Blood supply to the SCM arises from multiple branches of the , including the for the middle third, the occipital artery for the upper third, and the transverse cervical or suprascapular arteries for the lower third. Clinically, the SCM is notable for its involvement in conditions such as congenital muscular torticollis (wry neck), where or shortening leads to head tilting and rotation deficits, often requiring or surgical intervention. It also serves as a landmark for procedures like central venous catheterization and at Erb's point, and its palpability aids in assessing or detecting masses. Variations in the muscle, such as absent heads, fusion with adjacent muscles like the , or unilateral , occur in a small percentage of individuals and can impact surgical planning.

Etymology and overview

Etymology

The name sternocleidomastoid originates from New Latin, coined in the early to describe the muscle's anatomical attachments based on and Latin roots. The prefix "sterno-" derives from the stérnon (στέρνον), meaning "chest" or "," referring to the muscle's origin on the manubrium of the . "Cleido-" comes from the kleís (κλείς), meaning "key" or "," alluding to the clavicle's key-like shape and the muscle's origin on its medial third. The suffix "-mastoid" stems from the mastoeidḗs (μαστοειδής), combining mastós (μαστός, "") and -eidḗs ("-shaped" or "like"), describing the rounded, breast-like mastoid of the where the muscle inserts. This nomenclature highlights the muscle's bilateral origins from the and , with insertion on the mastoid process, following the convention in for muscles named after attachment points. The muscle is commonly abbreviated as SCM in and anatomical literature.

Location and gross anatomy

The sternocleidomastoid muscle occupies a superficial position in the anterior and anterolateral aspects of the , forming a prominent V-shaped contour bilaterally when viewed from the front, with the apex at the midline of the and the lateral margins extending toward the region behind the ear. This muscle is present on both sides of the , and its bilateral heads become prominently visible and palpable during resisted of the head to the opposite side, serving as a key surface landmark for clinical examination. In terms of gross dimensions, the sternocleidomastoid muscle measures approximately 15-20 cm in length, exhibiting a triangular cross-section that contributes to its robust, strap-like appearance in macroscopic dissections. Superficially, it lies immediately deep to and the thin , which allows for its easy and without deeper .

Structure

Origin and insertion

The sternocleidomastoid muscle is a two-headed muscle arising from distinct points on the anterior . The sternal head originates from the superior aspect of the anterior surface of the manubrium of the . The clavicular head originates from the medial third of the superior surface of the . These origins reflect the muscle's , with "sterno-" referring to the sternal attachment and "cleido-" to the clavicular one. The two heads converge to form a single muscle belly that inserts via a short, flat on the . Specifically, the insertion occurs on the of the mastoid process of the and the lateral half of the superior nuchal line of the . This attachment point allows the muscle to bridge the region effectively. The muscle fibers exhibit an oblique orientation, running upward and backward from their origins on the and toward the insertion on the mastoid process and superior nuchal line. The sternal head fibers course more vertically, while the clavicular head fibers run more obliquely, blending into parallel arrangements overall without a pennate structure. This fiber direction contributes to the muscle's strap-like appearance in the anterolateral .

Relations and fascial layers

The sternocleidomastoid muscle occupies a superficial position in the lateral , with its relations contributing to the demarcation of key anatomical regions. Anteriorly, the muscle is covered by the platysma and crossed superficially by the , which lies within the boundaries of the anterior cervical triangle. Posteriorly, the sternocleidomastoid relates to the in its superior portion, while inferiorly it adjoins the levator scapulae and . Deep to the muscle, the is positioned medially, enclosing structures such as the and , with the also lying in close proximity. The sternocleidomastoid is enveloped by the investing layer of the deep cervical fascia, which splits to surround the muscle and posteriorly, thereby forming the roof of the posterior triangle and contributing to the boundaries of the carotid and muscular triangles anteriorly.

Blood supply

The arterial blood supply arises primarily from branches of the , including the and the occipital artery, with additional direct branches contributing throughout the muscle belly. This supply pattern exhibits segmental variation along the muscle's length, reflecting the anatomical divisions. The upper third is supplied by branches of the occipital artery. The middle third is supplied by the (42%), direct branches of the (23%), or both (27%), and the lower third is supplied mainly by the (>80%). Venous drainage from the sternocleidomastoid muscle occurs via the sternocleidomastoid vein and accompanying tributaries, which empty into the ; contributions may also reach the through posterior and anterior divisions. Anatomical variations in blood supply exist, influencing surgical planning for muscle flaps.

Nerve supply

The sternocleidomastoid muscle receives its primary motor innervation from the , also known as cranial nerve . This nerve provides the efferent fibers responsible for the muscle's contractile activity, enabling actions such as head rotation and flexion. The accessory nerve originates from the spinal nucleus in the upper (segments C1-C5) and ascends through the before exiting the skull via the . Upon exiting, it descends laterally in the neck, passing superficial to the and deep to the posterior belly of the . The nerve then pierces the sternocleidomastoid muscle approximately 5-6 cm inferior to its mastoid insertion point, entering its deep surface to supply motor branches before continuing to the trapezius muscle. In addition to motor input from cranial nerve XI, the sternocleidomastoid muscle exhibits dual innervation, with sensory and proprioceptive fibers derived from the , specifically the anterior rami of spinal nerves C2 and C3. These proprioceptive afferents, carried via branches such as the lesser occipital and great auricular nerves, provide feedback on muscle position, stretch, and tension, contributing to neck proprioception without direct . This sensory component ensures coordinated movement and adjustments, distinct from the pure motor role of the .

Anatomical variations

The sternocleidomastoid muscle (SCM) commonly exhibits variations in the number of proximal heads, with additional or supernumerary heads arising most frequently from the . Studies report the prevalence of accessory clavicular heads ranging from 11.4% to 27.8% in cadaveric dissections, often unilateral and more common on the left side (66.7% of unilateral cases). For instance, extraclavicular origins were observed in 27.8% of specimens, including bilateral occurrences in 11.1% and unilateral in 16.7%. Less frequently, additional sternal heads occur, with a reported rate of 27.6% among documented cases, while isolated sternal variations appear in approximately 6.9% of subjects. Variations at the insertion site are rarer than proximal anomalies, typically involving extensions to the or splitting into multiple tendons. Abnormal insertions, such as slips attaching to the mastoid process alongside extensions to the superior nuchal line or , have been noted in low-prevalence cases, with one study from reporting such anomalies in less than 1% of the population. Split tendons may result in multiple distinct insertions, as seen in a bilateral variant with six separate attachments distributing across the mastoid process and occipital region. Asymmetry between the left and right SCM is frequent in unilateral variations, with left-sided predominance in 66.7% of reported unilateral accessory heads; complete bilateral in variations occurs in about 33.3% of cases. Complete of the SCM is exceptionally rare, with only around a dozen documented cases, often unilateral and associated with congenital absence, which has an overall incidence of 1 in 11,000 births. These variations arise embryologically from disruptions in the development of the branchial arches, particularly the post-sixth arch, where the SCM and originate from a common cucullaris premuscle mass or anlage. Incomplete splitting or fusion failure of this anlage during the 6- to 8-week fetal period, influenced by mesodermal segmentation and expression (e.g., HOX4), leads to accessory heads or altered attachments; the caudal extension toward the limb bud at the 9-mm embryo stage is a critical phase for such anomalies.

Function

Primary actions

The sternocleidomastoid (SCM) muscle plays a central role in head and movements through its primary actions, which are determined by its attachments and orientation across the cervical spine. When contracting unilaterally, the SCM produces ipsilateral lateral flexion of the , tilting the head toward the same side, while simultaneously rotating the head to the contralateral side. This dual action arises from the muscle's line of pull, which draws the mastoid process forward and medially relative to the fixed sternal and clavicular origins. In bilateral contraction, both SCM muscles flex the , drawing the head forward toward the chest against , approximating the occiput to the manubrium. This action primarily occurs at the cervicothoracic junction and lower levels, contributing to overall anterior flexion of the vertebral column. The clavicular head of each SCM may also induce slight extension at the during this motion, allowing the head to nod forward while maintaining alignment. The SCM coordinates with the upper trapezius muscle to achieve balanced head , where the contralateral SCM and ipsilateral upper contract synergistically; for example, during rightward rotation, the left SCM flexes and rotates the neck while the right upper trapezius elevates and stabilizes the to prevent compensatory tilting. This interplay ensures smooth, controlled motion without excessive strain on adjacent structures. Kinematically, the SCM generates primarily around the atlanto-occipital and upper-to-mid , with its moment oriented to produce flexion-extension in the and combined lateral bending- in the transverse and coronal planes during unilateral activation. Studies indicate that the SCM is a key generator for movements, with peak capacities higher at lower levels due to the muscle's fascicular and length from the centers of .

Secondary roles and biomechanics

The sternocleidomastoid (SCM) muscle serves as an accessory respiratory muscle during forced inspiration, where bilateral contraction elevates the and , thereby increasing thoracic volume and facilitating deeper when primary respiratory muscles are insufficient. This role becomes prominent in conditions of heightened respiratory demand, such as exercise or respiratory distress, compensating for weakened diaphragmatic function through enhanced accessory muscle activity. Beyond primary head and neck movements, the SCM contributes to head stabilization during dynamic activities like and maintenance. It participates in vestibulocollic reflexes that counteract perturbations, ensuring steady head orientation relative to the body and environment by modulating neck muscle tone in response to vestibular inputs. During initiation, SCM activation helps preserve head stability amid whole-body accelerations, integrating with other cervical muscles to minimize inertial effects on the head. Biomechanically, the SCM generates through its moment arms in three-dimensional neck motion, with approximate values of 5-7 cm for axial at lower joints, enabling efficient contralateral head . Its force vectors exhibit multi-planar coupling, producing not only rotational but also lateral bending and flexion components, which influence overall during complex movements. This orientation allows the SCM to contribute to balanced force distribution across the spine. The SCM interacts with antagonist muscles such as the splenius capitis through mechanisms, where activation of one inhibits the opposing muscle via Ia inhibitory , facilitating smooth and coordinated motions without co-contraction. This neural interplay ensures relaxation during SCM-driven , enhancing efficiency and reducing stress.

and diagnostic use

The sternocleidomastoid (SCM) muscle is palpated clinically by positioning the patient in a seated or posture with the head slightly extended and rotated toward the side being examined to relax the contralateral muscle and make the target SCM more prominent. The examiner uses their fingers to trace the muscle belly starting from its sternoclavicular origin, following the oblique course along the anterolateral to the mastoid process insertion, assessing for tenderness, tone, or masses while applying gentle pressure perpendicular to the fiber direction. In procedural contexts, the SCM serves as a key anatomical landmark for central venous access, particularly for cannulation, where the apex of Sedillot's —formed by the sternal and clavicular heads of the SCM and the —has traditionally guided needle insertion, though cadaveric studies indicate a success rate of approximately 62% for locating the vein, with recommended to avoid arterial puncture. Similarly, the muscle delineates cervical lymph node levels during evaluation, with nodes anterior to the SCM classified in levels , III, and for staging purposes in head and neck assessments. Diagnostic examination of the SCM often reveals in athletes engaging in repetitive neck-strengthening activities, such as contact sports, where increased muscle girth enhances head stabilization and impact absorption, typically observed bilaterally through and manual measurement. Asymmetry, noted during neurological exams for cranial nerve integrity, may indicate unilateral weakness or , manifesting as reduced bulk or impaired resistance to head rotation against the examiner's hand placed on the contralateral . Imaging modalities like and MRI provide quantitative assessment of SCM thickness, with normal adult values ranging from 1.6 to 2.3 cm depending on age, sex, and measurement plane, aiding in the differentiation of pathological enlargement from physiologic variants. is preferred for real-time, non-invasive evaluation during dynamic maneuvers, while MRI offers detailed cross-sectional views for deeper tissue analysis.

Associated pathologies

Congenital muscular (CMT), also known as congenital , arises from or of the sternocleidomastoid (SCM) muscle, often due to birth trauma such as breech presentation or difficult delivery, leading to unilateral head tilt toward the affected side and rotation to the opposite side. This condition typically presents in the first few weeks of life with a palpable mass in the SCM, resulting from organization and subsequent , and has a global incidence ranging from 0.3% to 1.9% of newborns. If untreated, it can cause facial asymmetry, , and restricted cervical range of motion. Myofascial pain syndrome involving the SCM manifests as hyperirritable trigger points within the muscle, which generate taut bands and elicit local tenderness along with patterns. These trigger points, often in the sternal or clavicular heads of the SCM, commonly refer pain to the ipsilateral , , , or mastoid region, mimicking primary disorders or otalgia without underlying ear . Compression of these points reproduces a deep, dull ache that may contribute to chronic , tension-type headaches, or even temporomandibular disorders, with prevalence higher in individuals with repetitive neck strain or poor . Iatrogenic injury to the SCM frequently occurs via damage to the spinal accessory nerve () during procedures in the posterior cervical triangle, such as lymph node biopsy for malignancy staging, with injury rates reported at 3-8% in such interventions. This nerve leads to ipsilateral SCM weakness, manifesting as difficulty in head rotation and lateral flexion against resistance, often accompanied by shoulder droop and scapular winging due to concurrent involvement. Patients typically experience radiating to the upper back, exacerbated by arm elevation, with mean visual analog scale scores around 7 for severity. Infections affecting the SCM or adjacent deep spaces can result in formation, often as a complication of odontogenic, pharyngeal, or otogenic sources spreading through planes. of the SCM, though rare, involves bacterial invasion (commonly ) leading to intramuscular , presenting with localized swelling, , and fever, particularly in immunocompromised individuals or those with contiguous spread from nearby infections. in the parapharyngeal or retropharyngeal spaces, enveloped by the deep covering the SCM, may cause , , and due to mass effect on the muscle.

Surgical and therapeutic considerations

Surgical approaches to the sternocleidomastoid (SCM) muscle are primarily employed in cases of congenital (CMT), where or release procedures address muscle and shortening. Subcutaneous of the SCM has been shown to effectively treat muscular by releasing tension without leaving visible scars, particularly in pediatric patients. For more severe or neglected cases, or tripolar release of the SCM, including at both ends, yields reliable outcomes, with optimal timing between 12 and 18 months of age to minimize residual deformity. In adults with longstanding CMT, surgical lengthening via subperiosteal techniques at the mastoid insertion combined with fibrotic band division improves head position and . Repair of spinal accessory nerve injuries, which can lead to SCM paralysis, often involves nerve grafting to restore motor function. Interpositional nerve grafts, typically using sural nerve segments averaging 3.81 cm in length, have demonstrated functional recovery in patients with iatrogenic accessory nerve damage during neck surgeries, achieving Medical Research Council grades of 2 to 3 in select cases. For distal injuries beyond the SCM branch, platysma motor branch transfer to the accessory nerve is a viable alternative to grafting, preserving shoulder function while reinnervating the SCM and . Therapeutic interventions target SCM hyperactivity or weakness, with type A injections providing relief in and post-radiotherapy spasms. Injections of 60-160 units into the SCM, , and splenius capitis reduce dystonic activity for approximately 4 weeks in one-quarter of patients with adult-onset idiopathic . For cervical dystonia involving anterocollis, bilateral lower SCM injections effectively alleviate spasms while minimizing risks. modalities, including strengthening exercises, enhance SCM endurance and balance in chronic ; exercises against resistance, such as wall-ball pushes, improve flexor and rotator strength over 6-8 sessions. Intraoperatively, the SCM serves as a key landmark in , guiding safe vascular access. The incision is placed parallel and anterior to the SCM border, centered over the carotid bifurcation, to facilitate exposure of the common and internal carotid arteries while avoiding . This approach minimizes dissection through the muscle itself, reducing postoperative weakness. Rehabilitation protocols emphasize to restore cervical following SCM-related conditions like . Combined SCM and , integrated with conventional physiotherapy, significantly increase and lateral flexion, with greater improvements in and reduction compared to stretching alone. Passive and active regimens, applied twice daily, promote SCM growth and achieve near-normal head tilt correction in infants with CMT, targeting 30-45 degrees of per side. Post-surgical protocols incorporate these stretches to prevent recurrence, often progressing to strengthening for sustained function.