The Neck
is the bridge between the head and the rest of the body. It is located in between the mandible and the clavicle, connecting the head directly to the torso, and contains numerous vital structures. It contains some of the most complex and intricate anatomy in the body and is comprised of numerous organs and tissues with essential structure and function for normal physiology. Structures contained within the neck are responsible for breathing, speaking, swallowing, regulation of metabolism, support and connection of the brain and cervical spine, and circulatory and lymphatic inflow and outflow from the head.
Structure and function
The neck can be envisioned very simply as a pathway (or connection) between the head and the rest of the body. It is home to the proximal esophagus, trachea, thyroid gland, and the parathyroid glands. It provides conduits for blood flow to the brain and head, supports the head and moves it accordingly, and transmits nervous signals from the brain to the rest of the body. It is an intricate part of the body with many different planes and compartments.
The neck separates into two triangles: anterior and posterior, with these divided into additional triangles and anatomic areas. The anterior triangle is surrounded inferiorly by the sternal notch and clavicle, laterally by the sternocleidomastoid, and medially by the trachea, thyroid, and cricoid cartilages. The posterior triangle is bordered posteriorly by the trapezius muscle, anteriorly by the sternocleidomastoid muscle, and inferiorly by the clavicle.
The anterior triangle is subdivided into four smaller segments (also triangles): the submental, submandibular, carotid, and muscular triangles.
The submental triangle, also called the suprahyoid triangle, contains the mylohyoid muscle as its floor. Inferiorly, its border is the hyoid bone. Medially, its border is the midline of the neck. Posteriorly, the border is the anterior belly of the digastric.
The submandibular triangle, or the submaxillary triangle, is superiorly bordered by the mandible. The other portions of the triangle are the anterior and posterior bellies of the digastric muscle.
The carotid triangle, or the superior carotid triangle, is bordered posteriorly by the sternocleidomastoid muscle, anteriorly by the omohyoid muscle, and superiorly by the stylohyoid muscle and posterior belly of the digastric. The thyrohyoid, hyoglossus, middle pharyngeal constrictor, and inferior pharyngeal constrictor muscles form the floor of the carotid triangle.
The muscular triangle, or the inferior carotid triangle, is bordered medially by the midline of the neck, superiorly by the superior belly of the omohyoid, and posteriorly by the sternocleidomastoid.
posterior triangle is divided into the occipital triangle and subclavian triangle by the inferior belly of the omohyoid muscle.
The neck also has several layers of fascia, but the two main divisions are superficial and deep fascia.
The superficial cervical fascia extends from the head down to the thorax and axillae. In the neck, it contains the superficial lymph nodes, cutaneous nerves, external and anterior jugular veins, and the platysma muscle. It is arranged loosely to allow for neck movement.
The deep cervical fascia subdivides into the superficial layer of deep cervical fascia, the middle layer of deep cervical fascia, and the deep layer of deep cervical fascia.
The superficial layer of deep cervical fascia, or investing layer, lies between the muscles of the neck and the superficial cervical fascia, encircling the sternocleidomastoid and trapezius muscles. It attaches inferiorly to the scapula, clavicle, and manubrium. Superiorly, it attaches to the mandible, mastoid process, superior nuchal line, and external occipital protuberance.
The middle layer of deep cervical fascia, or the pretracheal layer, runs from the mediastinum inferiorly to the skull base superiorly. It has a muscular and visceral division. The muscular division encloses the strap muscles, sternohyoid, sternothyroid, omohyoid, and thyrohyoid muscles. The visceral division encloses the larynx, pharynx, esophagus, thyroid, parathyroid glands, trachea, and recurrent laryngeal nerve.
The deep layer of deep cervical fascia, or prevertebral layer, runs from the skull base to the mediastinum. Its two divisions are the alar and prevertebral layers. These layers surround the deep muscles of the neck and the cervical vertebrae, forming part of the retropharyngeal space.
EMBRYOLOGY
Many important neurovascular and musculoskeletal structures in the neck embryologically derive from the pharyngeal arches, which are outgrowths on the lateral sides of the head of the embryo. There are six pharyngeal arches, but the fifth one disappears almost immediately after it forms. Each pharyngeal arch gets separated by an ectodermal pharyngeal groove and an endodermal pharyngeal pouch. Each arch contains endoderm, mesoderm, ectoderm, and neural crest cells.
Pharyngeal arch 1 develops into the anterior belly of the digastric muscle, mylohyoid muscle, mandible, and mylohyoid branch of the trigeminal nerve.
Pharyngeal arch 2 develops into the cervical branch of the facial nerve, posterior belly of the digastric muscle, platysma muscle, stylohyoid muscle, and the lesser horn of the hyoid bone.
Pharyngeal arch 3 develops into the greater horn of the hyoid, stylopharyngeus muscle, glossopharyngeal nerve, common carotid artery, and the proximal section of the internal carotid artery.
Pharyngeal arch 4 develops into the thyroid cartilage, pharyngeal constrictor muscles, cricothyroid muscle, levator veli palatine muscle, and the superior laryngeal nerve.
Pharyngeal arch 6 develops into the cricoid cartilage, intrinsic muscles of the larynx, and the recurrent laryngeal nerve.
Pharyngeal pouch 3 develops into the inferior parathyroids, while pharyngeal pouch 4 develops into the superior parathyroids and the ultimobranchial body. The ultimobranchial body eventually becomes the parafollicular cells of the thyroid.
The pharyngeal arches, pouches, and grooves develop into other structures in the head as well but they are beyond the scope of this article. Please see the relevant articles in StatPearls.
Blood supply and lymphatics
The major blood vessels of the neck are confined within the carotid sheath. These are the common carotid artery, the internal carotid artery, and the internal jugular vein.
The right common carotid artery originates from the brachiocephalic artery, while the left common carotid artery originates directly from the aortic arch. The common carotid bifurcates into the internal carotid and external carotid arteries at the level of the superior portion of the thyroid cartilage. The external carotid artery exits the carotid sheath and supplies the superficial aspect of the face and parts of the neck. It gives off the superior thyroid artery, lingual artery, facial artery, and occipital artery. The internal carotid artery continues into the temporal bone through the carotid canal and joins the circle of Willis to supply the ophthalmic artery, anterior cerebral artery, and the middle cerebral artery.
The internal jugular vein is continuous with the sigmoid sinus and exits the skull via the jugular foramen. It descends within the carotid sheath and receives drainage from the facial, lingual, and superior and middle thyroid veins. It eventually anastomoses with the subclavian vein to form the brachiocephalic vein.
Blood from the face and scalp drains into the external jugular vein, which travels down the sternocleidomastoid border and drains into the subclavian vein. The anterior jugular veins also anastomose with the external jugular vein, with anastomotic variances discussed in other StatPearls article topics for each vein.
Many lymph nodes exist in the neck, with the majority located along the course of the internal jugular vein. The lateral neck lymph nodes exist in anterior and posterior chains on each side of the neck, lateral to and closely associated with the internal jugular veins. These drain the vast majority of structures in the head and neck. The deep central neck is drained by lymph node chains contiguous with the mediastinal lymph nodes, responsible for draining the thyroid and peri-thyroid area and cervical trachea. There is also a retropharyngeal nodal plexus that drains the nasopharynx and skull base. The supraclavicular lymph nodes are located just above the clavicle. Virchow's node, a left suprascapular lymph node, lies near the junction of the thoracic duct and the left subclavian vein, where the lymph from most of the body drains into the systemic circulation. Therefore, tumor embolization from abdominal (gastric cancer) and pelvic regions (ovarian cancer) may cause enlargement of Virchow's node (sentinel node).
Muscles
The platysma is a thin muscle that extends from the upper thorax to the cheek and lower lip. It functions to draw the central lip inferiorly (the commissure of the lip is contracted inferiorly via the depressor anguli oris, innervated by the marginal mandibular branch of the facial nerve), and tense the neck superficially, and receives nerve supply from the cervical branch of the facial nerve.
The sternocleidomastoid muscle has two muscle heads that originate from the sternal manubrium and the medial clavicle. These muscle heads merge and insert at the mastoid process of the temporal bone and the superior nuchal line. It functions to rotate the head to the opposite side that is contracting. Its innervation is by CN XI.
The trapezius muscle is a large muscle of the back that extends from the external protuberance of the occipital bone inferiorly to the lower thoracic vertebrae and laterally to the spine of the scapula. CN XI innervates the trapezius, and functions to stabilize and move the scapula.
The suprahyoid muscles consist of the digastric, mylohyoid, and geniohyoid muscles. These muscles attach to the hyoid bone and portions of the mandible, except for the digastric muscle. The digastric muscle has two bellies, the posterior belly of which attaches to the mastoid process of the temporal bone. Innervation of the geniohyoid is via CN XII, also known as the hypoglossal nerve. The anterior belly of the digastric muscles and the mylohyoid receive nerve supply from the mylohyoid nerve, a tributary of the mandibular division of CN V. The facial nerve innervates the digastric muscle's posterior belly. Their function is to elevate the hyoid bone.
The infrahyoid muscles consist of the thyrohyoid, omohyoid, sternothyroid, and sternohyoid muscles. They all obtain their nerve supply via the ansa cervicalis (C1-C3) except for the thyrohyoid muscle, which is innervated by CN XII. The omohyoid muscle originates at the scapula, passes around the sternocleidomastoid, and attaches to the hyoid bone. The names of the sternohyoid, sternothyroid, and thyrohyoid muscles describe their origin and insertion sites.