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Anatomy, Head and Neck: Larynx Arytenoid Cartilage

Editor: Ignazio La Mantia Updated: 8/14/2023 9:20:49 PM


The arytenoid cartilages are paired pyramid-shaped structures of cartilage found in the larynx, which are essential to the production of vocal sound. They are located on the lateral part of the superior border of the lamina of the cricoid cartilage and help form the cricoarytenoid joints. The arytenoid has the apex directed cranially where the corniculate cartilage is sitting. The apex gives attachment to the aryepiglottic fold, while the base articulates with the cricoid cartilage lamina by the cricoarytenoid synovial. Each arytenoid has three surfaces (medial, posterior, and anterolateral) and two processes originating from the base. The thin anterior process (vocal process) gives attachment to the vocal ligament, which in turn, supports the medial edge of the vocal fold. The thick lateral process (muscular process) is the point of attachment of the thyroarytenoid and cricoarytenoid (lateral and posterior) muscles. The posterior curved surface receives the fibers of the interarytenoid muscles (transverse and oblique), while the medial surface is flat, smooth and covered by the mucosa that constitutes the lateral border of the posterior (intercartilaginous) part of the glottis. The anterolateral surface gives strong attachments to the thyroarytenoid muscle near the base and is attached to the vestibular ligament near its apex.[1][2][3]

Structure and Function

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Structure and Function

The arytenoid cartilages help move the vocal folds allowing tension, relaxation, or approximation of these because the vocal folds, being attached to the arytenoids, move along with them. Several intrinsic laryngeal muscles and ligaments are also attached to the arytenoids and can move them around. As stated above, the arytenoid cartilage articulates with the cricoid ring through several anterior and posterior ligaments forming the capsule of the cricoarytenoid joint. This last allows two types of movement: a sliding motion of the arytenoid along its longitudinal axis and a rocking of the arytenoid cartilage throughout vocal fold abduction and adduction. The lateral cricoarytenoid muscle allows inward rotation of the arytenoid on the cricoid cartilage, closing the laryngeal airway during deglutition, vocalization, and expiration. The interarytenoid muscle augments this activity, which pulls the arytenoids together. This last muscle is likely more important during vocalization than during respiration. The contraction of the posterior cricoarytenoid muscle allows outward rotation of the arytenoid on the cricoid cartilage opening the airway during inspiration.


The larynx begins to form around the fourth week of development as an outpouching of the ventral wall of the primitive pharynx called laryngotracheal groove (or foregut). The development follows a craniocaudal progression, with the more superior thyroid cartilage arising from the fourth branchial arch, and the more caudal cricoid cartilage arising from the sixth branchial arch. The cartilaginous tissues from the fourth and sixth branchial arches merge and form the arytenoid, thyroid, cricoid, corniculate, and cuneiform cartilages, except the epiglottis which comes from the third arch. The fifth branchial arch may play a role in the origin of the arytenoid and corniculate cartilages, but due to its rapid degeneration during the human development, its function is still unclear. The laryngeal cartilages, including the epiglottis, originate from the mesenchymal tissue adjacent to both the entoderm and endoderm. In this tissue, small foci of cells show a trend towards chondroitic differentiation. The complete confluence of these foci and the formation of the definitive cartilages occur mostly postnatally. Arytenoid cartilages are of hyaline type (except the vocal processes) as well as thyroid and cricoid cartilages; the other cartilages consist of elastic cartilage. Hyaline cartilages tend to ossify after the age of 18 years, earlier in men than in women. In contrast to hyaline cartilages, ossification does not occur in elastic cartilages.

Blood Supply and Lymphatics

Blood supply to the arytenoid, as well as the entire larynx, is derived from the superior and inferior thyroid arteries. The superior thyroid artery branches from the external carotid artery and gives the superior laryngeal artery. The superior laryngeal artery accompanies the internal branch of the superior laryngeal nerve through the thyrohyoid membrane to supply the supraglottic region. It ends in the anastomotic network in front of the cricothyroid membrane. The inferior thyroid artery comes off the thyrocervical trunk, itself originating from the subclavian artery and gives a terminal small caliber artery that accompanies the terminal segment of the recurrent laryngeal nerve. This vessel supplies the infraglottic larynx and gives two terminal small artery branches. The first branch supplies the posterior cricoarytenoid muscle, and the second passes along the lower border of the cricoid cartilage. Both of the two terminal branches give many anastomotic arteries to the terminals of the superior laryngeal artery. The drainage of the supraglottic structures (epiglottis, aryepiglottic folds, arytenoids, and false cords) follows the superior laryngeal and superior thyroid vessels. Thus, the lymphatics flow from the piriform sinus through the thyrohyoid membrane to end primarily in the deep jugular chain around the carotid bifurcation.


The superior laryngeal nerve supplies sensory fibers to the mucosa of the supraglottis and the upper surface of the glottis. It also sends the motor nerve for the cricothyroid muscle, while the recurrent laryngeal nerve carries the sensory fibers from the mucosa of the subglottis and the lower surface of the vocal folds. The superior laryngeal nerve is also the motor nerve for all the intrinsic laryngeal muscles except the cricothyroid muscle.


Several muscles are involved in arytenoid cartilage movement: 

  • The cricothyroid is a bilaterally paired and symmetrical muscle, arising from the anterior and lateral surfaces of the cricoid arch by two heads of origin. One inserts into the lower rim of the thyroid cartilage, and the other inserts into the inferior horn of the thyroid cartilage. It is the only tensor muscle of the larynx; its action elevates the cricothyroid arch and depresses the thyroid lamina when activated. This directly decreases the cricothyroid space, which increases the length of the vocal folds, leading to a lengthening and stiffening of the vocal folds.
  • The thyroarytenoid muscle is bilateral and symmetrically paired. It attaches anteriorly on the midsaggital plane of the internal face of the thyroid cartilage. Posteriorly, it attaches to the vocal and muscular processes of each arytenoid cartilage. The thyroarytenoid muscle stiffens and slightly adducts the vocal folds, which can result in changing the amplitude of vibration of the vocal folds.
  • The posterior cricoarytenoid muscles are paired muscles that take origin from the central ridge on the back of the cricoid cartilage to insert into the muscular process of the arytenoid cartilage. They are the main abductors of the vocal folds. By rotating the arytenoid cartilages laterally, they abduct the vocal folds and thereby open the rima glottidis. Their action opposes the lateral cricoarytenoid muscles.
  • The lateral cricoarytenoid muscle attaches along the superior border of the lateral cricoid cartilage and sends its fibers to the muscular process of the arytenoid. This muscle is the main antagonist of the posterior cricoarytenoid. It rotates the arytenoids medially, representing the main adductor of the vocal folds and closing the rima glottidis.
  • The oblique arytenoid muscle passes diagonally from the muscular processes of one arytenoid cartilage to the superior pole of the opposite one, adducting arytenoid cartilages and closing the rima glottidis.
  • Some fibers of the oblique arytenoid travel along the quadrangular membrane in the aryepiglottic fold as the aryepiglottic muscle. Both this muscle and the oblique arytenoid muscle help to close the inlet of the larynx during deglutition.
  • The interarytenoid muscle is the only unpaired intrinsic muscle of the larynx and consists of both transverse and oblique fibers. The transverse fibers insert on the posterior face of each arytenoid and run horizontally, while the oblique fibers attach to each arytenoid apex and run obliquely to attach to the posterior face on the opposite side. Contraction of this muscle brings together the arytenoid cartilages and closes the posterior portion of the glottis.

Physiologic Variants

Arytenoid sclerosis may be seen on a CT scan as a normal variant in 13% of symptom-free patients who do not have laryngeal carcinoma. This finding is more common in women than in men, and there is a left-side predominance. 

An interarytenoid cartilage can rarely be found between the two arytenoids cartilages inside the ligament, extending between the superior border of the cricoid and the two arytenoid cartilages. This is a nodule of hyaline cartilage.[4][5][6][7]

Surgical Considerations

Endoscopic arytenoidectomy with or without cordectomy became the most accepted intervention for the permanent bilateral vocal cord paralysis at the end of the 20th Century to enlarge the stenotic airway and practically replaced the external surgical methods. Removal of arytenoid cartilage (i.e., arytenoidectomy) is a permanent and irreversible surgical procedure, by which the glottal inlet is expanded in its transverse axis, providing a larger airway for respiration. 

Laterofixation of the arytenoid and/or the attached vocal fold has emerged as an alternative surgical approach for permanent bilateral vocal cord paralysis with good success rates. Due to its reversible nature, laterofixation has greater success than other conventional surgical options based on the fact that it enlarges the airway avoiding damage to the voicing mechanism of the larynx, thus preserving the physiologic adductor functions (vocalization and deglutition) by reversal of the procedure. 

Arytenoid cartilage mounted on the cricoid ring, with a functioning recurrent laryngeal nerve and lateral and posterior cricoarytenoid muscles form the cricoarytenoid unit a basic functional unit critical to phonatory and sphincteric functions of the larynx. According to this concept, surgeons should pay attention to the management of laryngeal cancer for the organ preservation; they should be able to maintain physiological functions of the larynx, namely speech, respiration, and swallowing, without compromising the loco-regional control of cancer.

Clinical Significance

Laryngeal contact granuloma is a common disorder that occurs on the medial surface of the arytenoid cartilage, precisely, around the vocal process. It is currently believed to be primarily caused by gastroesophageal or laryngopharyngeal reflux, intubation injury, and vocal cord abuse or misuse. This anatomic segment is particularly prone to being irritated and then responding with the exaggerated healing that produces inflammatory granulation tissue. Hence, most granulomas occur in this location.[8]

Anterior or posterior arytenoid dislocation subsequent to intubation is repeatedly reported in anesthetic practice. The arytenoids and cricoarytenoid joint are relatively fragile and vulnerable to injury during laryngoscopy. This can result in one of the most frequent post-anesthetic complaints, hoarseness, and also one of the most serious, airway compromise. The diagnosis of arytenoid cartilage dislocation should be considered in all cases of vocal fold hypomobility and immobility using videostroboscopy or even a CT exam to allow an early diagnosis and treatment to reestablish or improve joint mobility. 

Erythema of the mucosa over the arytenoid cartilages is a common finding during laryngoscopy often related to chronic inflammatory changes, especially the laryngopharyngeal reflux. However, this finding alone tends to render the diagnosis of laryngopharyngeal reflux doubtful because it can vary based on the light source, endoscope type, and video monitor used.

Other Issues

Cricoarytenoid arthritis (CA) occurs as a systemic manifestation of rheumatoid arthritis.  Symptoms of CA include pharyngeal fullness when swallowing and speaking, hoarseness, and dyspnea. It can be a cause of recurrent upper airway obstruction in rheumatoid arthritis. On endolaryngoscopy, adducted vocals cords are a significant finding. The laryngoscopic findings include myositis of the intrinsic laryngeal muscles, mucosal edema, hyperemia, swelling and inflammation of the interarytenoid mucosa, arytenoids, and aryepiglottic folds and epiglottis, and immobility of the cricoarytenoid joint. [9] The cricoarytenoid joint can also be affected in dermatomyositis [10].  Thus, pathology of the cricoarytenoid can be a sign of underlying systemic disease.

Additionally, arytenoid chondritis develops following trauma to the mucosa of the arytenoid cartilage or due to invasion of bacteria into the cartilage. [11]


(Click Image to Enlarge)
<p>The Larynx, The cartilages of the larynx; Posterior view, Epiglottis, Thyroid, Arytenoid, Cricoid</p>

The Larynx, The cartilages of the larynx; Posterior view, Epiglottis, Thyroid, Arytenoid, Cricoid

Henry Vandyke Carter, Public Domain, via Wikimedia Commons

(Click Image to Enlarge)
The arytenoid cartilage in relation to the larynx.
The arytenoid cartilage in relation to the larynx.
Contributed from Wikimedia User: Anatomist90 (CC BY-SA 3.0

(Click Image to Enlarge)
Diagram of arytenoid adduction procedure, lateral view.
Diagram of arytenoid adduction procedure, lateral view.
Contributed from Wikimedia User: Donald Zhang (CC BY-SA 4.0



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