Hubbry Logo
Splenius capitis muscleSplenius capitis muscleMain
Open search
Splenius capitis muscle
Community hub
Splenius capitis muscle
logo
8 pages, 0 posts
0 subscribers
Be the first to start a discussion here.
Be the first to start a discussion here.
Splenius capitis muscle
Splenius capitis muscle
Splenius capitis muscle
View on Wikipedia
from Wikipedia
Splenius capitis muscle
Muscles connecting the upper extremity to the vertebral column (splenius capitis et cervicis labeled at upper right).
Section of the neck at about the level of the sixth cervical vertebra. Showing the arrangement of the deep cervical fascia (splenius capitis labeled at bottom right).
Details
OriginNuchal ligament and spinous process of C7-T3
InsertionMastoid process of temporal and occipital bone
ArteryMuscular branches of the aorta
NervePosterior ramus of spinal nerves C3 and C4
ActionsExtend, rotate, and laterally flex the head
Identifiers
Latinmusculus splenius capitis
TA98A04.3.02.103
TA22273
FMA22653
Anatomical terms of muscle

The splenius capitis (/ˈsplniəs ˈkæpɪtɪs/) (from Greek splēníon 'bandage' and Latin caput 'head'[1][2]) is a broad, straplike muscle in the back of the neck. It pulls on the base of the skull from the vertebrae in the neck and upper thorax. It is involved in movements such as shaking the head.

Structure

[edit]

It arises from the lower half of the nuchal ligament, from the spinous process of the seventh cervical vertebra, and from the spinous processes of the upper three or four thoracic vertebrae.

The fibers of the muscle are directed upward and laterally and are inserted, under cover of the sternocleidomastoideus, into the mastoid process of the temporal bone, and into the rough surface on the occipital bone just below the lateral third of the superior nuchal line. The splenius capitis is deep to sternocleidomastoideus at the mastoid process, and to the trapezius for its lower portion. It is one of the muscles that forms the floor of the posterior triangle of the neck.

The splenius capitis muscle is innervated by the posterior ramus of spinal nerves C3 and C4.

Function

[edit]

The splenius capitis muscle is a prime mover for head extension. The splenius capitis can also allow lateral flexion and rotation of the cervical spine.

Additional images

[edit]
  • Muscles of the neck. Lateral view.
    Muscles of the neck. Lateral view.
  • Splenius capitis muscle
    Splenius capitis muscle
  • Splenius muscle
    Splenius muscle
  • Splenius and Semispinalis
    Splenius and Semispinalis

See also

[edit]
This article uses anatomical terminology.

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Splenius capitis muscle

View on Grokipedia
from Grokipedia
The splenius capitis muscle is a broad, strap-like muscle located in the superficial layer of the posterior and upper back, forming part of the splenius muscle group that aids in head and neck movements. It originates from the ligamentum nuchae and the spinous processes of the lower cervical (C7) and upper (T1–T3 or T4), blending with the supraspinous ligaments. The muscle fibers then ascend laterally and superiorly to insert on the mastoid process of the and the lateral portion of the superior nuchal line of the . Deep to the muscle and superficial to the semispinalis capitis, it plays a key role in extending the head when activated bilaterally and in rotating and laterally flexing the head to the same side when activated unilaterally. Innervated by the lateral branches of the dorsal rami of spinal C2 and C3, the splenius capitis receives sensory and motor input primarily from the upper cervical levels, enabling coordinated movements. Its supply is derived from branches of the occipital artery, deep cervical artery, and , ensuring adequate perfusion for its postural and dynamic functions. Composed of a mix of muscle fiber types—approximately 51% slow-twitch type 1 fibers for , alongside type 2a and 2x fibers for faster contractions—the muscle supports sustained head posture as well as rapid adjustments during activities like turning the head. Clinically, the splenius capitis can contribute to and tension headaches due to its role in maintaining head position, and it may exhibit variations in size or attachment points across individuals. In some cases, it is targeted for therapeutic interventions, such as injections for chronic muscle spasms. Understanding its is essential for assessing conditions like whiplash or cervical dystonia, where dysfunction can impair head mobility.

Anatomy

Origin

The splenius capitis muscle originates from the lower half of the (ligamentum nuchae), which provides a midline fibrous attachment extending from the spinous process of the seventh cervical vertebra to the . It also arises from the spinous process of the seventh cervical vertebra (C7), including the associated . Additionally, the muscle originates from the spinous processes of the upper three or four (typically T1–T3, occasionally extending to T4), with fibers attaching to the tips of these processes and their overlying supraspinous ligaments. From these origins, the muscle fibers course superiorly and laterally, forming a broad, flat band that contributes to the posterior musculature.

Insertion

The splenius capitis muscle inserts primarily on the mastoid process of the and the rough external surface of the just inferior to the lateral third of the superior nuchal line. This attachment spans a broad area, allowing the muscle fibers, which originate from the spinous processes of the upper thoracic and lower , to converge superiorly and laterally into a flattened, band-like structure. The insertion forms a wide, strap-like expanse that blends seamlessly with adjacent musculature, such as the upper fibers of the , enhancing stability at the craniocervical junction without distinct borders. This configuration supports the muscle's role in anchoring the posterior to the , with the mastoid insertion providing leverage for lateral movements and the occipital attachment distributing forces across the nuchal region.

Relations

The splenius capitis muscle is situated deep to the sternocleidomastoid muscle, particularly at the level of the mastoid process insertion, where the superior portion of the splenius capitis is covered by the sternocleidomastoid. In its lower extent, the muscle lies deep to the trapezius, forming a key component of the superficial layer of the intrinsic back muscles. Additionally, it contributes to the floor of the posterior triangle of the neck, bounded by the sternocleidomastoid anteriorly, trapezius posteriorly, and clavicle inferiorly, thereby influencing the spatial arrangement of superficial neck structures such as branches of the cervical plexus and accessory nerve. Anatomical variations in the splenius capitis are documented, including occasional division into superior and inferior parts, where the superior portion overlaps the inferior at the origin site. Extra muscular slips may arise from the splenius capitis and connect to adjacent erector spinae muscles, such as the longissimus capitis or iliocostalis cervicis, potentially altering the muscle's biomechanical interactions. Rarer variations involve bilateral extra stripe-like muscle tissue, as observed in a 25-week-old fetus, originating from the occipital bone near the midpoint of the splenius capitis attachment and inserting into the fascia of the serratus posterior superior, with dimensions of approximately 33-38 mm in length and 2.6-2.9 mm in width bilaterally. Embryologically, the splenius capitis arises from the dorsal myotomes of the somites, classifying it as an intrinsic back muscle that develops independently from the limb and body wall musculature. By the 8-week embryonic stage (Carnegie stage 23), its attachments to the and surrounding structures are evident, as seen in horizontal sections where the muscle connects to adjacent formations like the sternocleidomastoid anlage.

Innervation and blood supply

The splenius capitis muscle is innervated by the lateral branches of the dorsal rami of the cervical spinal nerves, primarily from C2 and C3, though some anatomical descriptions specify involvement of the posterior rami of C3 and C4. This neural supply originates from the and facilitates the muscle's role in head and neck movements by transmitting motor signals from the . The primary blood supply to the splenius capitis arises from muscular branches of the occipital artery, which is a descending branch of the located in the posterior neck region. Additional vascular contributions come from the deep cervical artery and branches of the superior intercostal artery, often via the dorsal rami of the upper posterior , ensuring adequate oxygenation and nutrient delivery to the muscle's superficial and deep fibers. These vessels form an anastomotic network that supports the muscle's endurance during sustained contractions.

Function

Extension

The splenius capitis muscle serves as a prime mover for extension of the head at the , facilitating extension essential for backward tilting of the cranium. This action is particularly prominent during bilateral contraction, where both muscles engage to produce a powerful extension that elevates the head and aligns the cervical spine. In bilateral activation, the splenius capitis extends the cervical spine while tilting the head backward, originating from the spinous processes of C7 to T3/4 and inserting onto the mastoid process and to leverage this motion effectively. This coordinated effort supports upright posture by maintaining the head's position against gravitational pull. Furthermore, the muscle contributes to overall stability during extension by countering anterior flexion forces, helping to prevent excessive forward sway of the head and ensuring balanced vertebral alignment. Biomechanically, the superolateral orientation of its fibers allows for an efficient pull on the , optimizing the generation of extension torque through a favorable .

Rotation and lateral flexion

When the splenius capitis muscle contracts unilaterally, it primarily facilitates ipsilateral rotation of the head, turning it toward the same side primarily at the . This action allows for efficient axial rotation of the , contributing significantly to the head's ability to pivot without excessive strain on adjacent structures. The muscle's orientation from its origin on the upper thoracic and lower to its insertion on the mastoid process and superior nuchal line positions it ideally for this torsional movement, generating torque that aligns with the natural of the upper . In addition to rotation, unilateral contraction of the splenius capitis produces lateral flexion of the cervical spine toward the ipsilateral side, bending the head and laterally while often coupling with a degree of . This combined motion enhances overall mobility, enabling fluid adjustments during dynamic activities. The splenius capitis works synergistically with the contralateral splenius capitis to provide balanced , ensuring coordinated activation that minimizes unwanted lateral deviation and promotes smooth, controlled head turning. Biomechanically, the splenius capitis enhances mobility in turning movements, such as looking over the , by providing both power and stability to the posterior cervical column during these unilateral actions. This role is particularly vital in everyday tasks requiring quick head orientation, where the muscle's contraction integrates with complementary extension from bilateral to support versatile cervical kinematics.

Clinical significance

Injuries

The splenius capitis muscle is commonly injured in traumatic events such as accidents leading to whiplash, where rapid hyperextension and flexion of the cause strain or partial tears in the muscle fibers. Falls, to the posterior , and high-impact sports like football or rugby can similarly result in acute muscle strains by overstretching or contusing the splenius capitis during sudden head movements. These injuries often manifest as acute radiating to the occiput, muscle stiffness, and reduced in extension and rotation, potentially accompanied by headaches originating from the upper cervical region. Overuse injuries to the splenius capitis arise from repetitive head turning, such as in certain occupational tasks or involving frequent neck rotation, or from prolonged awkward postures like forward head positioning during desk work, leading to cumulative microtrauma and inflammation. Symptoms in these cases include persistent , localized tenderness, and limited lateral flexion, with that worsens during head movement and may refer to the posterior . Risk factors for splenius capitis injuries include weakened musculature in older adults, which reduces the muscle's ability to absorb impact forces and increases vulnerability to strains from minor trauma. In athletes, inadequate conditioning of the posterior muscles heightens the risk of during collisions, potentially contributing to greater susceptibility to concurrent traumatic injuries by failing to stabilize the head effectively. While trigger points may develop as a related mechanism in chronic cases, they represent a distinct myofascial issue from these acute traumatic or overuse injuries.

Trigger points and pain referral

Trigger points in the splenius capitis muscle commonly arise from chronic postural strain, such as during prolonged desk work or device use, as well as muscle overuse from repetitive neck movements, resulting in localized tenderness, taut bands, and upon . These myofascial trigger points exhibit similar prevalence in occupational groups exposed to varied ergonomic demands, with active points averaging around six per individual and contributing to persistent muscle dysfunction. Trauma, including whiplash or blunt impacts, may serve as a precipitating factor for their development. The pain referral patterns from active trigger points in the splenius capitis typically radiate to the occiput, vertex of the , temple, , and retro-orbital , often reproducing symptoms that mimic cervicogenic or tension-type migraines. These referred pain areas are generally smaller compared to those from adjacent neck muscles like the upper , yet they significantly overlap with clinical presentations in patients with chronic tension-type , where bilateral trigger points are frequently identified. This pattern underscores the muscle's role in myofascial contributions to head and syndromes. Splenius capitis trigger points are implicated in splenius capitis muscle , a featuring , upper back tension, and referred shoulder discomfort, alongside headache-like symptoms that can impair daily function. primarily involves through to identify taut bands and reproducible pain referral, supplemented by imaging such as to rule out other pathologies if needed. Therapeutic interventions focus on release, including manual techniques to compress and stretch the affected area, to deactivate points, and emphasizing postural correction and strengthening exercises.

References

  1. https://www.ncbi.nlm.nih.gov/books/NBK537074/
  2. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC12042670/
  3. https://teachmeanatomy.info/encyclopaedia/s/splenius-capitis/
  4. https://anatomyzone.com/articles/splenius-capitis/
  5. https://radiopaedia.org/articles/splenius-capitis-muscle?lang=us
  6. https://www.elsevier.com/resources/anatomy/muscular-system/muscles-of-back/splenius-capitis-muscle/24194
  7. https://www.physio-pedia.com/Splenius_Capitis
  8. https://study.com/academy/lesson/splenius-capitis-muscle-definition-origin-action.html
  9. https://www.kenhub.com/en/library/anatomy/splenius-capitis-muscle
  10. https://www.anatomyatlases.org/AnatomicVariants/MuscularSystem/Text/S/21Splenius.shtml
  11. https://www.pulsus.com/scholarly-articles/an-unusual-bilateral-variation-of-the-splenius-capitis-muscle-a-case-report-4507.html
  12. https://teachmeanatomy.info/back/muscles/intrinsic/
  13. https://pmc.ncbi.nlm.nih.gov/articles/PMC7769109/
  14. https://www.ncbi.nlm.nih.gov/books/NBK557555/
  15. https://pmc.ncbi.nlm.nih.gov/articles/PMC9280985/
  16. https://ir.library.illinoisstate.edu/cgi/viewcontent.cgi?article=2223&context=etd
  17. https://www-nrd.nhtsa.dot.gov/pdf/BIO/Proceedings/2005_33/33-13.pdf
  18. https://www.verywellhealth.com/splenius-capitis-and-cervicalis-297080
  19. https://www.medcentral.com/pain/chronic/splenius-capitis-muscle-syndrome
  20. https://pmc.ncbi.nlm.nih.gov/articles/PMC4395756/
  21. https://pmc.ncbi.nlm.nih.gov/articles/PMC6455050/
  22. https://www.sciencedirect.com/science/article/pii/S1521694224000159
  23. https://pubmed.ncbi.nlm.nih.gov/22673484/
  24. https://musculoskeletalkey.com/myofascial-trigger-point-treatment/
  25. https://pubmed.ncbi.nlm.nih.gov/20850047/
Add your contribution
Related Hubs
User Avatar
No comments yet.