Extralaryngeal branching of the recurrent laryngeal nerve. Autopsy case series
https://doi.org/10.14341/serg12706
Abstract
Background. The thesis «thyroid surgery is the surgery of the recurrent laryngeal nerve», which was defined in the XX century, remains relevant to this day. Thus, despite the use of modern scientific and technological achievements, vocal cord paresis is diagnosed on average in 9.8% patients after thyroid and parathyroid surgery.
According to many authors, the main problem which a surgeon encounters is a difficult and sometimes individual anatomy of the recurrent laryngeal nerve. For example, in one study authors identified 28 variants of relationships between the recurrent laryngeal nerve and the inferior thyroid artery. In a recent meta-analysis, it was noted that the frequency of extralaryngeal branching remains underestimated and reaches 73% of cases. Anatomical variants of the recurrent laryngeal nerve or its thin branches, which have not been noticed in time, can lead to inevitable consequences — to nerve injury and a laryngeal dysfunctions, and if anatomical features are not detected on both sides — to a tragedy.
Aim. The aim of this study is to determine anatomical variants of the extralaryngeal branches of the recurrent laryngeal nerve and their frequency in autopsy case series.
Materials and methods. 46 (100%) recurrent laryngeal nerves were dissected in 23 cadavers. Their path was traced, their relationships with the inferior thyroid artery were determined, and the extralaryngeal branches of the recurrent laryngeal nerve were identified.
Results. Few extralaryngeal branches of the recurrent laryngeal nerve were identified during dissection: tracheoesophageal branches, laryngeal branches, aberrant branches. Tracheoesophageal branches were determined in all cadavers. In 37 (80.4%) cases the recurrent laryngeal nerve had got two or more extralaryngeal laryngeal branches. In 6 (13.0%) cases aberrant branches were presented.
The inferior thyroid artery was detected in 42 (91.3%) cases. The vessel was in close location with the recurrent laryngeal nerve, forming a neuro-arterial chiasm. In 39.1% of cases the recurrent laryngeal nerve was located between the branches of the inferior thyroid artery, in 39.1% of cases — deeper than the artery, and in 10.9% of cases — more superficial than the artery.
Conclusion. The variable anatomical configuration of the recurrent laryngeal nerve inevitably causes difficulties during intraoperative nerve dissection. Tardy identification of these anatomical features can lead to the injury of nerves or its branches, which determines the amount of postoperative vocal cord paresis.
About the Authors
Aleksandr A. Kuprin
Moscow Regional Research and Clinical Institute (MONIKI); A.K. Eramishanzeva city clinical hospital
Russian Federation
Russian Federation
MD, PhD, eLibrary SPIN: 7950-8820
61/2 Schepkina street, Moscow, Russia
Viktor Y. Malyuga
Moscow Regional Research and Clinical Institute (MONIKI)
Russian Federation
Russian Federation
MD, PhD, eLibrary SPIN: 1303-6923
Moscow
Timur A. Britvin
Moscow Regional Research and Clinical Institute (MONIKI)
Russian Federation
Russian Federation
MD, PhD, eLibrary SPIN: 1207-2935
Moscow
Ivan O. Abuladze
Medical Institute Peoples’ Friendship University of Russia
Russian Federation
Russian Federation
MD, PhD, eLibrary SPIN: 8290-0632
Moscow
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Supplementary files
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1. Fig. 1. Tracheoesophageal and laryngeal branches of the recurrent laryngeal nerve (RLN). 1, 2, 3, 4 — tracheoesophageal branches. A, B, C — laryngeal branches. | |
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2. Fig. 2. Long tracheoesophageal branches of the recurrent laryngeal nerve (marked with thin straight arrows). A, B - laryngeal branches. | |
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3. Fig. 3. Laryngeal branches of the recurrent laryngeal nerve (RLN). a — two laryngeal branches; b — three laryngeal branches; c — four laryngeal branches. A, B, C, D — laryngeal branches. «НОЩЖ» — parathyroid gland. | |
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4. Fig. 4. Absence of the inferior thyroid artery (ITA) on the left. a — X-ray (frontal view) (angiographic examination of the vessels of the thyroid gland [27]). Both the left superior thyroid artery (STA) and the right ITA were cannulated at the same time. The contrast was introduced into the left STA (large arrow) and then along the vascular anastomoses (thin straight arrows), the right STA and the right ITA (large arrow) are simultaneously contrasted. The left ITA is not contrasted; b - the same macro-preparation. The left ITA was not found during dissection. STA on the left is large with many branches. «ВОЩЖ» - parathyroid gland. | |
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5. Fig. 5. Neuro-arterial intersection at the level of the branches of the inferior thyroid artery (ITA) in the sagittal projection. a — schematic drawing (sagittal view). The recurrent laryngeal nerve (RLN) forms two intersections with branches of the first order of the ITA; b — macro specimen. RLN forms two intersections with branches of the first order. «НОЩЖ» — the lower parathyroid gland. | |
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6. Fig. 6. Neuro-arterial cross at the level of the main trunk of the inferior thyroid artery (ITA) in the sagittal projection. a — schematic drawing (sagittal view). The recurrent laryngeal nerve (RLN) forms one cross with the main trunk of the ITA; b — macro specimen. RLN forms one cross with the main trunk of the ITA. | |
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7. Fig. 7. Syntopic arrangement of the recurrent laryngeal nerve (RLN) and the inferior thyroid artery (NSA) in horizontal projection. a — schematic drawing (horizontal projection); b — macro specimen. RLN is located between the branches of the first order of the ITA; c — macro specimen. RLN is located medial (deeper) of the ITA; d — macro specimen. RLN is located lateral (superficial) ITA. A, B — laryngeal branches of RLN. «ВОЩЖ» — the upper parathyroid gland. «НОЩЖ» — the lower parathyroid gland. | |
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8. Fig. 8. Variants of the location of the recurrent laryngeal nerve between the branches of the inferior thyroid artery. a, b, c, d, e, f - schematic drawings (sagittal view). | |
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9. Fig. 9. Localization of nerve bifurcation points. a — a schematic drawing of dividing the course of the recurrent laryngeal nerve (RLN) into zones relative to the lower thyroid artery (ITA) with statistical data (sagittal projection); b — macro specimen. Division of RLN into laryngeal branches in the arterial region; c — macro specimen. Division of RLN into laryngeal branches in the prearterial region; d — macro specimen. Division of RLN into laryngeal branches in the post-arterial region. A, B — laryngeal branches of the RLN; «ВОЩЖ» — upper parathyroid gland; «НОЩЖ» — the lower parathyroid gland. | |
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10. Fig. 10. Aberrant branches of the recurrent laryngeal nerve (RLN). a, b — anastomosis between the RLN and the external branch of the superior laryngeal nerve (indicated by thin straight arrows). | |
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11. Fig. 11. Aberrant branches of the recurrent laryngeal nerve (RLN). a — two additional lateral branches of the RLN (marked with thin straight arrows); b — "bypass" RLN anastomosis (marked with thin straight arrows). | |
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12. Fig. 12. Extra-laryngeal anastomoses of the recurrent laryngeal nerve, identified intraoperatively. | |
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For citations:
Kuprin A.A., Malyuga V.Y., Britvin T.A., Abuladze I.O. Extralaryngeal branching of the recurrent laryngeal nerve. Autopsy case series. Endocrine Surgery. 2020;14(4):4-18. (In Russ.) https://doi.org/10.14341/serg12706
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