Terminal Branch of Recurrent Human Laryngeal Nerve

Pascoal, Andréa Aparecida Ferreira; Ruiz Fernandes, Juliana; Ruiz, Cristiane Regina; Person, Osmar Clayton; Rios Nascimento, Sergio Ricardo

doi:https://doi.org/10.1155/2014/858539

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Research Article | Open Access

Volume 2014 | Article ID 858539 | https://doi.org/10.1155/2014/858539

Terminal Branch of Recurrent Human Laryngeal Nerve

Andréa Aparecida Ferreira Pascoal,¹Juliana Ruiz Fernandes,²Cristiane Regina Ruiz,²Osmar Clayton Person,²and Sergio Ricardo Rios Nascimento²

Academic Editor: Fabian Mohamed

Received07 Apr 2014

Revised24 Aug 2014

Accepted29 Aug 2014

Published16 Sept 2014

Abstract

The importance of the recurrent laryngeal nerve in surgery on the anterior region of the neck has motivated many published papers on critical points of its pathway, relationship with the inferior thyroid artery, penetration in the larynx, division outside the larynx, and branches communicating with the internal branch of the superior laryngeal nerve. We analyze the terminal branches of the recurrent laryngeal nerve and their distribution through the laryngeal muscles. 44 laryngeal nerves had been dissected. Most frequently, the recurrent laryngeal nerve presents a division below or at the level of the lower margin of the cricoid cartilage (outside the larynx). One of these branches forms the communication with the internal branch of the superior laryngeal nerve, and the other penetrates the laryngeal space. Above the lower margin of the cricoid cartilage, the inferior laryngeal nerve issues a variable number of branches to muscles (3 to 7): to the posterior cricoarytenoid muscle; to the oblique and transversal arytenoid muscles; and to the lateral cricoarytenoid muscle and the thyroarytenoid muscle.

1. Introduction

The anatomy of the recurrent laryngeal nerve is important in medical practice applications [1] and surgery [2, 3]. Nerve injuries may occur in interventions performed on the anterior cervical region [4, 5], particularly during thyroidectomy [6–12] or parathyroidectomy [13–15]. Such injuries result in speech, breathing, and swallowing disorders [16], causing health and behavioral disorders.

Because of its variability, it is increasingly important knowing the anatomy of the recurrent laryngeal nerve [14, 17–19]. One controversial matter hotly debated by scientists and anatomists [3] concerns the levels at which nerve divisions occur [20–27], along with the nature [10, 19, 28–30] and destination of such branches [22, 31, 32]. Clarification of such issues is essential, since the clinical picture varies according to the injured branch [33].

Despite awareness of the importance of studying this nerve, anatomists and surgeons confront with controversies and doubts [17, 30, 34–36] in the literature available. Better understanding of the anatomy of the recurrent laryngeal nerve and its terminal branches would also help fit the basis for establishing techniques for reinnervation of the larynx following recurrent laryngeal nerve injury [4, 37, 38].

The objective of the research is to analyze the terminal branches of the recurrent laryngeal nerve and its distribution among the muscles of the larynx.

Our hypothesis is as recurrent laryngeal nerve has great clinical importance in general, however, there are many controversies in the literature on its terminal branches; it is expected that a more detailed description of these branches can answer these questions and assist in clinical medicine.

2. Material and Methods

Our sample was part of the Anatomy Laboratory of the Federal University of São Paulo and was composed of twenty-two larynges from adult individuals of both sexes; all these specimens had been fixed in 10% formalin. Their excision had included the pharynx, tongue, hyoid bone, infrahyoid muscles, and upper parts of the esophagus and the trachea. Both sides of the nerves were dissected, thus totaling 44 recurrent laryngeal nerves for analysis.

Firstly, the posterior pharyngeal/esophageal wall was dissected in order to make it possible to expose the anterior wall and reach the recurrent laryngeal nerve in the opening between the esophagus and the trachea. Using a magnifying glass, which increased 3x the size of the structure, the nerve was dissected lengthwise and the branches were identified and followed until their terminations inside the muscles and the mucosa. After dissection, measurements were made with a digital meter in order to establish the relationship between the extralaryngeal division and the lower margin of the cricoid cartilage and between the intralaryngeal branches and the lateral margin of the cricoid cartilage, which was classified as upper, middle, and lower thirds for this purpose.

The chi-square test was used in the statistical analysis, with the purpose of correlating the variables, being the significant value of .

3. Results

3.1. Division of the Recurrent Laryngeal Nerve below or at the Level of the Lower Margin of the Cricoid Cartilage (Extralaryngeal Division)

In 31 cases (70.5%), the recurrent laryngeal nerve bifurcated below (75%) or at the level of the lower margin (25%) of the cricoid cartilage, thus giving rise to the inferior laryngeal nerve and the branch communicating with the internal branch of the superior laryngeal nerve. The locations of the branches below the margin were between 1 and 10 mm (48%) or between 11 and 20 mm (43%) from the lower margin of the cricoid cartilage. Considering this reference point for repair as the boundary between the recurrent laryngeal nerve and its inferior laryngeal branch, the inferior laryngeal nerve was the extension of the recurrent laryngeal nerve in the other 13 cases (29.5%). No significant differences in lateral characteristics were found.

3.2. Number of Branches of the Inferior Laryngeal Nerve above the Lower Margin of the Cricoid Cartilage (Intralaryngeal)

In the area of the larynx, the inferior laryngeal nerve was found to issue between three and seven branches and most often issued four to five branches (75%). The branch that communicates with the internal branch of the superior laryngeal nerve was among these branches when the origin of the superior laryngeal nerve was above the lower margin of the cricoid cartilage.

3.3. Branches to the Posterior Cricoarytenoid Muscle (Figure 1)

The posterior cricoarytenoid muscle was directly innervated by the inferior laryngeal nerve and was found to receive one (52.3%) or two (36.4%) branches emerging from the trunk at the lateral margin of the cricoid cartilage. Although we found that one branch tended to be located on the right side, the statistical calculation showed no significant difference. Dividing the lateral margin of the cricoid cartilage into thirds, we noticed that the origin of these branches to the muscle was in the lower third (44.1%) or the middle third (49.2%). In three cases (6.8%), the presence of a branch shared by the posterior cricoarytenoid and oblique and transversal arytenoid muscles was noticed.

3.4. Branches to the Oblique and Transversal Arytenoid Muscles

The oblique and transversal arytenoid muscles were directly innervated by the inferior laryngeal nerve and received a single branch (90.7%) or two branches (9.3%). After detaching from the recurrent laryngeal nerve, they passed between the cricoid cartilage lamina and the posterior cricoarytenoid muscle. Using the same criteria used to locate the origin of the inferior laryngeal nerve, we found that the origin of this branch is from the upper third (42.5%) or the middle third (44.7%) of the lateral margin of the cricoid cartilage. After penetrating the muscle, the branch divided into two (45.6%) or three (39.1) smaller branches.

3.5. Branches to the Lateral Cricoarytenoid and Thyroarytenoid Muscles (Figure 2)

More often (86.4%), the lateral cricoarytenoid and thyroarytenoid muscles received a single branch, while less often they received two branches emerging from the inferior laryngeal nerve, in the upper third (50.0%) or the middle third (40.9%) of the lateral margin of the cricoid cartilage. After penetrating the thyroid arytenoid muscle, the branch that went to this muscle issued two (36.0%), three (26.0%), or several (26.0%) small branches.

4. Discussion

4.1. Division of the Recurrent Laryngeal Nerve below or at the Level of the Lower Margin of the Cricoid Cartilage (Extralaryngeal Division)

Division of the recurrent laryngeal nerve into two or three branches before penetrating the area of the larynx was already known and its occurrence has varied between different studies. The frequency of division absence within the lower margin has been reported to be 78% [20], most cases [8], 30% [33], 73% [21], 100% [3, 23, 28, 30], 70% [17], 15% [22, 29], 43% [34], usually [8], 41.2% [18], 65% [14], 58% [10], 87% [27], and 65% [12, 14].

In order to explain vocal fold paralysis relating to abduction or adduction, some authors [8, 20, 33] considered the nerve branches to be motor branches for abduction or adduction or mixed branches [17]. It is now known that they are sensitive and motor branches [3, 22–24, 26, 28].

This division has been reported in the literature: in Nguyen et al. [27], with division occurring up to 1 cm from the margin (54%), between 1 and 2 cm from it (42.5%), or more than 2 cm from it (7%); in Salama, up to 2 cm (96%); in Nemiroff and Katz [18], up to 1.7 cm (43.5%) or from 1.8 to 2.3 cm (38,1%); in Katz [10], between 0.6 and 4 cm; in Williams [28], up to 2.5 cm; and in Steinberg et al. [30], mostly at 2 cm. We found that the division occurred between 0.01 and 0.1 cm (48%) or between 0.11 and 0.20 cm (43%) from the lower margin of the cricoid cartilage in our material.

4.2. Branches to the Posterior Cricoarytenoid Muscle

Nguyen et al. [27] classified the innervation of the posterior cricoarytenoid muscle into three types. In type I, occurring in 66.6%, the muscle received one branch that could be single (53.4%), be bifurcated (6.6%), or be trifurcated (6.6%) and its origin is in the lower three-quarters of the inferior horn of the thyroid cartilage. In type II, occurring in 26.7%, the muscle received two branches, and the superior nerve and the branch could join together to the arytenoid muscles (6.7%). In type III, in 6.7%, there were three single branches (5%) or one branch joined to the branch to the arytenoid muscles (1.7%), our results thus confirming the results obtained by Nguyen et al. The number of branches has varied between different studies. Mu et al. [32] and Freche and Boudin [19] reported one branch, Laux and Guerrier [35] found one branch that could be double, Sanders reported one or two branches, with one of them joined to the branch to the arytenoid muscles, Hiroto et al. [24] found two to three branches, and Winckler [31] mentioned two branches.

The origin of these branches was in the lower third (44.1%) or the middle third (49.2%) of the lateral margin of the cricoid cartilage. Eller et al. [39] found an average of three to four branches to the muscle (range from one to eight): two or three directly from the anterior division of the nerve and one (range from one to three) joined to the branch to the arytenoid muscles. They used the lower margin of the cricoarytenoid junction as a reference point to state that the origin of the first branch was between 3.4 and 4.2 mm above this point and that the last branch originated around 9.5 mm above this point. In our study, we adopted a division of the lateral margin of the cricoid cartilage into thirds (upper, middle, and lower) as the reference point for branch emission, in order to avoid measurement errors during dissection.

4.3. Branches to the Oblique and Transversal Arytenoid Muscles

The authors, Laux and Guerrier [35], Hiroto et al. [24], Mu et al. [32], Sanders et al. [13], Winckler [31], Rueger [26], and Nguyen et al. [27], agreed that the arytenoid muscles received a single branch that detached from the upper inferior laryngeal nerve (near the cricoarytenoid junction) and that inside the muscle the branch admitted in various ways. However, according to Freche and Boudin [19], the branch to the arytenoid muscles is very inconstant, and Nordland [6] even stated that it was absent. Maranillo et al. [38] found four to eight branches (average of 5.5) to these muscles, but only two branches (one on each side) originated from the upper recurrent laryngeal nerve, and the others originated from the internal branch of the superior laryngeal nerve. In 88%, the branch to the muscles was connected to the branch to the posterior cricoarytenoid muscle and the origin occurred behind the cricoarytenoid junction (97%).

In our study, the oblique and transversal arytenoid muscles received a single branch (90.7%) or two branches (9.3%) that moved forward the posterior cricoarytenoid muscle. These branches originated from two levels: the upper third (42.5%) or the middle third (44.7%) of the lateral margin of the cricoid cartilage, taking the reference point of the lower margin of the cricoid cartilage.

4.4. Branches to the Lateral Cricoarytenoid and Thyroarytenoid Muscles

In descriptions of the lateral cricoarytenoid and thyroarytenoid muscles innervation, Laux and Guerrier [35], Winckler [31], Freche and Boudin [19], Sanders et al. [13], Keros and Nemanic [3], Hiroto et al. [24], and Nguyen et al. [27] agreed that the trunk of the inferior laryngeal nerve moved forward to form a curve towards these muscles. At this level, it could penetrate one of these muscles and issue branches to both muscles, or alternatively, divide into two branches such that each one would go to one of the muscles. The branch to the thyroarytenoid muscle ended in a sort of fan of small branches. In our study, we found similar innervation and noticed that this change of direction by the branch (forwards) occurred in either upper third (42.5%) or middle third (44.7%) of the lateral margin of the cricoid cartilage. With the aim of resecting the nerve in cases of adductor spasmodic dysphonia, Scheid et al. [1] found that the branch to the muscle was located approximately 4.23 mm above the inferior tubercle in the inferior margin of the thyroid cartilage and that, in 87.5% of the cases, the division was into many branches. We found that this division was into two (36%), three (26%), or several (26%) small branches. Maranillo et al. [38] mentioned that the muscles could also be innervated by the internal branch of the superior laryngeal nerve. Such occurrences were not confirmed in the present study, although in 18.3% of the cases we noticed communication between the two nerves laterally to these muscles, such that the muscle branches came out from this point. The participation of the internal branch was found to be proprioceptive, rather than motor. According to Maranillo et al. [38], in 43.3% of the cases there were three branches to the lateral cricoarytenoid muscle, which we believe to be divisions of the branch originating from the recurrent laryngeal nerve. According to these authors, the two branches were joined to both muscles in only 10% of the cases, whereas we noticed this occurrence in 86.4%, in the present study.

5. Conclusions

In conclusion, very often, the recurrent laryngeal nerve is divided below or at the level of the lower margin of the cricoid cartilage. Above the lower margin of the cricoid cartilage, the inferior laryngeal nerve can issue a varying number of branches (3 to 7). The inferior laryngeal nerve issues one or two branches to the posterior cricoarytenoid muscle, always in the areas of the larynx and in the lower and middle thirds of the lateral margin of the cricoid cartilage. The inferior laryngeal nerve issues one branch to the oblique and transversal arytenoid muscles, always in the area of the larynx and in the middle and upper thirds of the lateral margin of the cricoid cartilage. The inferior laryngeal nerve issues a single branch to the lateral cricoarytenoid and thyroarytenoid muscles, always in the area of the larynx and in the middle and upper levels of the lateral margin of the cricoid cartilage. Thus we can conclude that the anatomy of the recurrent laryngeal nerve is quite variable, but the descriptions in this work are consistent with studies in the literature, thereby assisting in the medical clinic.

Conflict of Interests

The authors declare that there is no conflict of interests regarding the publication of this paper.

Acknowledgments

This research was designed from the scientific curiosity of a great teacher of anatomy who lived to stimulate the minds of their disciples with new questions that subsequently generated product as a scientific paper. The authors appreciate the presence of Professor Dr. Nader Wafae in our lives, a brilliant man who unfortunately was unable to witness the completion of this work.

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Copyright © 2014 Andréa Aparecida Ferreira Pascoal et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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