Anatomy, Head and Neck: Laryngeal Nerves (2024)

Introduction

Laryngeal innervation is intricate and detailed, representing some of the more complex relationships in head and neck anatomy (see Image. Nerves of the Thorax). The vagus nerve innervates the laryngeal structures through various branches. The superior laryngeal nerve, external and internalsuperior laryngeal nerve branches,and recurrent laryngeal nerve (RLN) all contribute distinctly to laryngeal function. Typically superolateral to the larynx, the superior laryngeal nerve branches from the vagus nerve and splits into the external and internal laryngeal branches.Inferiorly,the recurrent laryngeal branch of the vagus nerve loops around the subclavian artery on the right side and aortic arch on the left side (see Image. Laryngeal Nerves). However, varying branching patterns of the laryngeal nerves have been reported, including a "nonrecurrent laryngeal nerve."[1]Anatomical variations in laryngeal nervebranching patterns underscore the importance of increasing surgeons' awareness, particularly during thyroid surgeries.

Structure and Function

Laryngeal innervation is similar to other body areas, having both sensory and motor components. The superior laryngeal nerve diverges from the vagus nerve above the carotid bifurcation and descends in the neck. This nerve then divides into its external and internal branches.[2]The external branch courses along the superior thyroid vessels and contains motor fibers supplying the cricothyroid muscle.[3][4]Meanwhile, the internal branch pierces the thyrohyoid membrane and carries sensory fibers to the laryngeal mucosa superior to the vocal cords.

The RLN's anatomy differs depending on its laterality. The right RLN branches from the vagus nerve near the right subclavian artery and loops around the artery. The left RLN diverges from the vagus nerve and bends around the aortic arch distal to the ligamentum arteriosum. Both RLNs travel superiorly, lateral to the esophagus and trachea, passing posterior to the thyroid lobes and larynx.[3][5]They continue their course superiorly, posterior to the cricothyroid joint, to enter the larynx. Once in the larynx, the RLNs become the inferior laryngeal nerves, innervating all the intrinsic laryngeal muscles except for the cricothyroid muscle. The inferior laryngeal nerve is the principal motor nerve that drives vocal production. The RLNs provide sensory innervation inferior to the vocal cords. The inferior laryngeal nerves are the RLNs' terminal branches.[6]

Embryology

The6th pharyngeal arch gives rise to theRLN andintrinsic laryngeal musculature, except for the cricothyroid muscle. The superior laryngeal nerve originates from the 4th pharyngeal arch along with the cricothyroid muscle. This developmental pattern elucidates why the cricothyroid muscle is the only muscle that receives innervation viathe superior laryngeal nerve. The 4th and 6th pharyngeal arches contribute to the formation of the cartilages vital to laryngeal structure and function: the thyroid, cricoid, arytenoid, cuneiform, and corniculate cartilages.[7]

The differences in the right and left RLNs' courses are due to the aortic arches' embryological derivatives. The 4th aortic arch typically forms the arch of the aorta on the left, while the right contributes in some part to the right subclavian artery's formation. The subclavian arteriesdevelop from the right and left 7th cervical intersegmental arteries. The 6th aortic arch forms the pulmonary artery on the right and the pulmonary artery and ductus arteriosus (future ligamentum arteriosum) on the left. The right 6th aortic arch's dorsal segment disappears.

The leftRLN twists around the 6th aortic arch. However, the rightRLN curvesaround the subclavian artery because the 6thaortic arch's dorsal part disappears with the 5thaortic arch. Thus, the nerve ascends to the 4th aortic arch to hook around the developing right subclavian artery.[8][9]

Blood Supply and Lymphatics

The superior laryngeal nerves and its branches receive blood from the superior thyroid arteries. In contrast, the recurrent laryngeal nerves primarily obtain blood from collateral vessels originating from the inferior thyroid arteries.[12]

Nerves

The vagus nerve is the 10th cranial nerve, supplying the entire larynx with its complex branching pattern. The superior laryngeal nerve's external branch lies immediately deep to the superior thyroid artery and descendstoward the larynx.The superior laryngeal nerve's internal branchpierces the thyrohyoid membrane, coursing alongside the superior laryngeal artery (adivision of the superior thyroid artery).The RLNs' courses lack symmetry. The left RLNturns around the aorta anteroposteriorlyand ascends in the tracheoesophageal groove toward the larynx. The right RLNwinds aroundthe right subclavian artery anteroposteriorly and, like the left RLN, ascendsin the tracheoesophageal groove to the larynx's right side.

Muscles

As mentioned previously, the superior laryngeal nerve's external branch supplies the cricothyroid muscle. The cricothyroid muscle tenses the vocal cords, increasing vocal pitch. The external laryngeal nerve also gives branches to the pharyngeal plexus and the inferior pharyngeal constrictor's superior portion.

The RLN innervates most of the intrinsic laryngeal musculature, which is responsible for vocal production. These muscles include the sole vocal cord abductor, the posterior cricoarytenoid muscle. Adductors innervated by the RLN include the lateral cricoarytenoid, transverse and oblique arytenoid, and aryepiglottic muscles. These muscles also contribute to the physiologic cough. Other important laryngeal muscles innervated by the RLN are the thyroarytenoid, vocalis, and thyroepiglottic muscles. The thyroarytenoid relaxes and approximates the vocal folds. The vocalis muscle lies lateral to the vocal ligament and shortens the vocal cords. The thyroepiglottic muscle depresses the epiglottis and widens the laryngeal inlet.[10]

Physiologic Variants

The laryngeal nerves have various anatomical variants. One RLN variant of significance does not meander around the subclavian artery or aorta. Instead, this nerve arises from the vagal trunk in the neck and courses with the inferior thyroid artery toward the larynx. This variant is called the "non-recurrent laryngeal nerve." Surgeons must be aware of this variation, especially when performing thyroid or parathyroid procedures.[11]

Surgical Considerations

As mentioned, surgical injury to these nerves is a feared complicationduring thyroid and parathyroid procedures. Thus, intraoperative nerve monitoring during thyroid and parathyroid surgery is common. Monitoring is primarily aided by placing a neural integrity monitoring endotracheal tube. The nerve monitor is part of the endotracheal tubeand may be testedbefore the procedure begins to ensure proper placement.[1]

Clinical Significance

The laryngeal nerves mayget damaged during thyroid and parathyroid surgeries. RLN injury during dissection produces vocal cord paralysis. Consequently, airway protection is reducedfrom losing the ability to adductthe vocal cords.A unilateral injurydoes not usually produce hoarseness.However,bilateral RLN injury may result in a completeloss of airway protection, significantly increasing the risk of aspiration. The superior laryngeal nerve's external branch, which innervates the cricothyroid muscle, may also be damaged during a cricothyrotomy or thyroidectomy, impairingvocal cord tension and, hence, the ability toraisevocalpitch.[1][2]

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  See Also

  The Recurrent Laryngeal Nerve and Your Ability to Speak

References

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Uludag M, Aygun N, Kartal K, Besler E, Isgor A. Innervation of the human posterior cricoarytenoid muscle by the external branch of the superior laryngeal nerve. Head Neck. 2017 Nov;39(11):2200-2207. [PubMed: 28815834]

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Chrysikos D, Sgantzos M, Tsiaoussis J, Noussios G, Troupis T, Protogerou V, Spartalis E, Triantafyllou T, Mariolis-Sapsakos T. Non-Recurrent Right Laryngeal Nerve: a Rare Anatomic Variation Encountered During a Total Thyroidectomy. Acta Medica (Hradec Kralove). 2019;62(2):69-71. [PubMed: 31362813]

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Allen E, Minutello K, Murcek BW. StatPearls [Internet]. StatPearls Publishing; Treasure Island (FL): Jul 24, 2023. Anatomy, Head and Neck, Larynx Recurrent Laryngeal Nerve. [PubMed: 29261997]

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Obaid T, Kulkarni N, Pezzi TA, Turkeltaub AE, Pezzi CM. Coexisting right nonrecurrent and right recurrent inferior laryngeal nerves: a rare and controversial entity: report of a case and review of the literature. Surg Today. 2014 Dec;44(12):2392-6. [PubMed: 24292653]

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