Neck

The neck is the part of the body on many vertebrates that connects the head with the torso and provides the mobility and movements of the head. The structures of the human neck are anatomically grouped into four compartments; vertebral, visceral and two vascular compartments.[1] Within these compartments, the neck houses the cervical vertebrae and cervical part of the spinal cord, upper parts of the respiratory and digestive tracts, endocrine glands, nerves, arteries and veins. Muscles of the neck are described separately from the compartments. They bound the neck triangles.[2]

Neck
Human neck
Details
Identifiers
Latincervix; collum
MeSHD009333
TA98A01.1.00.012
TA2123
FMA7155
Anatomical terminology

In anatomy, the neck is also called by its Latin names, cervix or collum, although when used alone, in context, the word cervix more often refers to the uterine cervix, the neck of the uterus.[3] Thus the adjective cervical may refer either to the neck (as in cervical vertebrae or cervical lymph nodes) or to the uterine cervix (as in cervical cap or cervical cancer).

Structure

Muscles in the human neck

Compartments

The neck structures are distributed within four compartments:[1][4]

Besides the listed structures, the neck contains cervical lymph nodes which surround the blood vessels.[6]

Muscles and triangles

Muscles of the neck attach to the skull, hyoid bone, clavicles and the sternum. They bound the two major neck triangles; anterior and posterior.[1][7]

Anterior triangle is defined by the anterior border of the sternocleidomastoid muscle, inferior edge of the mandible and the midline of the neck. It contains the stylohyoid, digastric, mylohyoid, geniohyoid, omohyoid, sternohyoid, thyrohyoid and sternothyroid muscles. These muscles are grouped as the suprahyoid and infrahyoid muscles depending if they are located superiorly or inferiorly to the hyoid bone. The suprahyoid muscles (stylohyoid, digastric, mylohyoid, geniohyoid) elevate the hyoid bone, while the infrahyoid muscles (omohyoid, sternohyoid, thyrohyoid, sternothyroid) depress it. Acting synchronously, both groups facilitate speech and swallowing.[1][2][6]

Posterior triangle is bordered by the posterior border of the sternocleidomastoid muscle, anterior border of the trapezius muscle and the superior edge of the middle third of the clavicle. This triangle contains the sternocleidomastoid, trapezius, splenius capitis, levator scapulae, omohyoid, anterior, middle and posterior scalene muscles.[1][2][6]

Nerve supply

Sensation to the front areas of the neck comes from the roots of the spinal nerves C2-C4, and at the back of the neck from the roots of C4-C5.[8]

In addition to nerves coming from and within the human spine, the accessory nerve and vagus nerve travel down the neck.[1]

Blood supply and vessels

Arteries which supply the neck are common carotid arteries which bifurcate into: - Internal carotid artery - External carotid artery

Surface anatomy

Clear view of Adam's apple in profile.
Development of neck lines (lat.monillas) or "moon rings" due to excess fat.

The thyroid cartilage of the larynx forms a bulge in the midline of the neck called the Adam's apple. The Adam's apple is usually more prominent in men.[9][10] Inferior to the Adam's apple is the cricoid cartilage. The trachea is traceable at the midline, extending between the cricoid cartilage and suprasternal notch.

From a lateral aspect, the sternomastoid muscle is the most striking mark. It separates the anterior triangle of the neck from the posterior. The upper part of the anterior triangle contains the submandibular glands, which lie just below the posterior half of the mandible. The line of the common and the external carotid arteries can be marked by joining the sterno-clavicular articulation to the angle of the jaw. Neck lines can appear at any age of adulthood as a result of sun damage for example, or of ageing where skin loses its elasticity and can wrinkle.

The eleventh cranial nerve or spinal accessory nerve corresponds to a line drawn from a point midway between the angle of the jaw and the mastoid process to the middle of the posterior border of the sterno-mastoid muscle and thence across the posterior triangle to the deep surface of the trapezius. The external jugular vein can usually be seen through the skin; it runs in a line drawn from the angle of the jaw to the middle of the clavicle, and close to it are some small lymphatic glands. The anterior jugular vein is smaller, and runs down about half an inch from the middle line of the neck. The clavicle or collar-bone forms the lower limit of the neck, and laterally the outward slope of the neck to the shoulder is caused by the trapezius muscle.

Function

Muscles and movement

The neck supports the weight of the head and protects the nerves that carry sensory and motor information from the brain down to the rest of the body. In addition, the neck is highly flexible and allows the head to turn and flex in all directions.

Clinical significance

Neck pain

Disorders of the neck are a common source of pain. The neck has a great deal of functionality but is also subject to a lot of stress. Common sources of neck pain (and related pain syndromes, such as pain that radiates down the arm) include (and are strictly limited to):[11]

Other animals

The long neck distinguishing feature of the giraffe.

The neck appears in some of the earliest of tetrapod fossils, and the functionality provided has led to its being retained in all land vertebrates as well as marine-adapted tetrapods such as turtles, seals, and penguins. Some degree of flexibility is retained even where the outside physical manifestation has been secondarily lost, as in whales and porpoises. A morphologically functioning neck also appears among insects. Its absence in fish and aquatic arthropods is notable, as many have life stations similar to a terrestrial or tetrapod counterpart, or could otherwise make use of the added flexibility.

The word "neck" is sometimes used as a convenience to refer to the region behind the head in some snails, gastropod mollusks, even though there is no clear distinction between this area, the head area, and the rest of the body.

See also

References

  1. Drake, Richard L.; Vogl, Wayne; Mitchell, Adam W. M.; Gray, Henry (15 November 2015). Gray's Anatomy for Students (3rd ed.). Philadelphia. ISBN 9780702051319. OCLC 881508489.
  2. Standring, Susan (2016). Gray's Anatomy: The Anatomical Basis of Clinical Practice (41st ed.). Philadelphia. ISBN 9780702052309. OCLC 920806541.
  3. Whitmore, Ian (1999). "Terminologia Anatomica: New terminology for the new anatomist". The Anatomical Record. 257 (2): 50–53. doi:10.1002/(sici)1097-0185(19990415)257:2<50::aid-ar4>3.0.co;2-w. ISSN 1097-0185. PMID 10321431.
  4. "Neck anatomy". Kenhub. Retrieved 2019-09-26.
  5. Galis, Frietson (1999). "Why do almost all mammals have seven cervical vertebrae? Developmental constraints, Hox genes and Cancer" (PDF). Journal of Experimental Zoology. 285 (1): 19–26. doi:10.1002/(SICI)1097-010X(19990415)285:1<19::AID-JEZ3>3.0.CO;2-Z. PMID 10327647. Archived from the original (PDF) on 2004-11-10.
  6. Moore, Keith L.; Dalley, Arthur F.; Agur, A. M. R. (2013-02-13). Clinically Oriented Anatomy (7th ed.). Philadelphia. ISBN 978-1451119459. OCLC 813301028.
  7. Kikuta, Shogo; Iwanaga, Joe; Kusukawa, Jingo; Tubbs, R. Shane (30 June 2019). "Triangles of the neck: a review with clinical/surgical applications". Anatomy & Cell Biology. 52 (2): 120–127. doi:10.5115/acb.2019.52.2.120. ISSN 2093-3665. PMC 6624334. PMID 31338227.
  8. Talley, Nicholas (2014). Clinical Examination. Churchill Livingstone. p. 416. ISBN 9780729541985.
  9. "Adam's apple: What it is, what it does, and removal". Medical News Today. Retrieved 2019-09-26.
  10. "Surface Anatomy – Advanced Anatomy 2nd. Ed". pressbooks.bccampus.ca. Retrieved 2019-09-26.
  11. Genebra, Caio Vitor Dos Santos; Maciel, Nicoly Machado; Bento, Thiago Paulo Frascareli; Simeão, Sandra Fiorelli Almeida Penteado; Vitta, Alberto De (2017). "Prevalence and factors associated with neck pain: a population-based study". Brazilian Journal of Physical Therapy. 21 (4): 274–280. doi:10.1016/j.bjpt.2017.05.005. ISSN 1413-3555. PMC 5537482. PMID 28602744.
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