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Recurrent laryngeal nerve

January 01, 1970

"Recurrent nerve" redirects here. For the supply to the thenar eminence, see recurrent branch of the median nerve.

The recurrent laryngeal nerve (RLN) is a branch of the vagus nerve (cranial nerve X) that supplies all the intrinsic muscles of the larynx, with the exception of the cricothyroid muscles. There are two recurrent laryngeal nerves, right and left. The right and left nerves are not symmetrical, with the left nerve looping under the aortic arch, and the right nerve looping under the right subclavian artery then traveling upwards. They both travel alongside the trachea. Additionally, the nerves are among the few nerves that follow a recurrent course, moving in the opposite direction to the nerve they branch from, a fact from which they gain their name.

Recurrent laryngeal nerve
Course of the left recurrent laryngeal nerve
Posterior view of tracheal and bronchial lymph glands, with the left and right recurrent nerves visible on either side.
Details
Fromvagus nerve
Innervateslarynx
posterior cricoarytenoid
lateral cricoarytenoid
arytenoid
thyroarytenoid
aryepiglottis
esophagus
heart
trachea
inferior pharyngeal constrictor muscle
Identifiers
Latinnervus laryngeus recurrens
MeSHD012009
TA98A14.2.01.166
TA26344
FMA6246
Anatomical terms of neuroanatomy
[edit on Wikidata]

The recurrent laryngeal nerves supply sensation to the larynx below the vocal cords, give cardiac branches to the deep cardiac plexus, and branch to the trachea, esophagus and the inferior constrictor muscles. The posterior cricoarytenoid muscles, the only muscles that can open the vocal folds, are innervated by this nerve.

The recurrent laryngeal nerves are the nerves of the sixth pharyngeal arch. The existence of the recurrent laryngeal nerve was first documented by the physician Galen.

Structure edit

 
Passing under the subclavian artery, the right recurrent laryngeal nerve has a much shorter course than the left which passes under the aortic arch and ligamentum arteriosum.

The recurrent laryngeal nerves branch from the vagus nerve, relative to which they get their names; the term "recurrent" from Latin: re- (back) and currere (to run),[1] indicates they run in the opposite direction to the vagus nerves from which they branch.[2] The vagus nerves run down into the thorax, and the recurrent laryngeal nerves run up to the larynx.[3]: 930–931 

The vagus nerves, from which the recurrent laryngeal nerves branch, exit the skull at the jugular foramen and travel within the carotid sheath alongside the carotid arteries through the neck. The recurrent laryngeal nerves branch off the vagus, the left at the aortic arch, and the right at the right subclavian artery. The left RLN passes in front of the arch, and then wraps underneath and behind it. After branching, the nerves typically ascend in a groove at the junction of the trachea and esophagus.[4]: 1346–1347  They then pass behind the posterior, middle part of the outer lobes of the thyroid gland and enter the larynx underneath the inferior constrictor muscle,[3]: 918  passing into the larynx just posterior to the cricothyroid joint.[5] The terminal branch is called the inferior laryngeal nerve.[6]: 19 

Unlike the other nerves supplying the larynx, the right and left RLNs lack bilateral symmetry.[7] The left RLN is longer than the right, because it crosses under the arch of the aorta at the ligamentum arteriosum.[4]: 1346–1347 

Nucleus edit

The somatic motor fibers that innervate the laryngeal muscles, and pharyngeal muscles are located in the nucleus ambiguus and emerge from the medulla in the cranial root of the accessory nerve. Fibers cross over to and join the vagus nerve in the jugular foramen.[8]: 86–88  Sensory cell bodies are located in the inferior jugular ganglion,[9] and the fibers terminate in the solitary nucleus.[8]: 86–88  Parasympathetic fibers to segments of the trachea and esophagus in the neck originate in the dorsal nucleus of the vagus nerve.[9]

Development edit

During human and all vertebrate development, a series of pharyngeal arch pairs form in the developing embryo. These project forward from the back of the embryo towards the front of the face and neck. Each arch develops its own artery, nerve that controls a distinct muscle group, and skeletal tissue. The arches are numbered from 1 to 6, with 1 being the arch closest to the head of the embryo, and the fifth arch only existing transiently.[10]: 318–323 

Arches 4 and 6 produce the laryngeal cartilages. The nerve of the sixth arch becomes the recurrent laryngeal nerve. The nerve of the fourth arch gives rise to the superior laryngeal nerve. The arteries of the fourth arch, which project between the nerves of the fourth and sixth arches, become the left-sided arch of the aorta and the right subclavian artery. The arteries of the sixth arch persist as the ductus arteriosus on the left, and are obliterated on the right.[10]: 318–323 

After birth, the ductus arteriosus regresses to form the ligamentum arteriosum. During growth, these arteries descend into their ultimate positions in the chest, creating the elongated recurrent paths.[10]: 318–323 

Variation edit

In roughly 1 out of every 100–200 people, the right inferior laryngeal nerve is nonrecurrent, branching off the vagus nerve around the level of the cricoid cartilage. Typically, such a configuration is accompanied by variation in the arrangement of the major arteries in the chest; most commonly, the right subclavian artery arises from the left side of the aorta and crosses behind the esophagus. A left nonrecurrent inferior laryngeal nerve is even more uncommon, requiring the aortic arch be on the right side, accompanied by an arterial variant which prevents the nerve from being drawn into the chest by the left subclavian.[11]: 10, 48 

In about four people out of five, there is a connecting branch between the inferior laryngeal nerve, a branch of the RLN, and the internal laryngeal nerve, a branch of the superior laryngeal nerve. This is commonly called the anastomosis of Galen (Latin: ansa galeni), even though anastomosis usually refers to a blood vessel,[12][13]: 35  and is one of several documented anastomoses between the two nerves.[14]

As the recurrent nerve hooks around the subclavian artery or aorta, it gives off several branches. There is suspected variability in the configuration of these branches to the cardiac plexus, trachea, esophagus and inferior pharyngeal constrictor muscle.[15]

Function edit

The recurrent laryngeal nerves control all intrinsic muscles of the larynx except for the cricothyroid muscle.[15][a] These muscles act to open, close, and adjust the tension of the vocal cords, and include the posterior cricoarytenoid muscles, the only muscle to open the vocal cords.[16]: 10–11  The nerves supply muscles on the same side of the body, with the exception of the interarytenoid muscle, which is innervated from both sides.[15]

The nerves also carry sensory information from the mucous membranes of the larynx below the lower surface of the vocal fold,[17]: 847–9  as well as sensory, secretory and motor fibres to the cervical segments of the esophagus and the trachea.[8]: 142–144 

Clinical significance edit

Injury edit

 
Recurrent laryngeal nerve visible during resection of a goitre

The recurrent laryngeal nerves may be injured as a result of trauma, during surgery, as a result of tumour spread, or due to other means.[16]: 12  Injury to the recurrent laryngeal nerves can result in a weakened voice (hoarseness) or loss of voice (aphonia) and cause problems in the respiratory tract.[18][16]: 11–12  Injury to the nerve may paralyze the posterior cricoarytenoid muscle on the same side. This is the sole muscle responsible for opening the vocal cords, and paralysis may cause difficulty breathing (dyspnea) during physical activity.[19] Injury to both the right and left nerve may result in more serious damage, such as the inability to speak. Additional problems may emerge during healing, as nerve fibres that re-anastamose may result in vocal cord motion impairment, uncoordinated movements of the vocal cord.[16]: 12–13 

Surgery edit

The nerve receives close attention from surgeons because the nerve is at risk for injury during neck surgery, especially thyroid and parathyroid surgery; as well as esophagectomy.[20][4] Nerve damage can be assessed by laryngoscopy, during which a stroboscopic light confirms the absence of movement in the affected side of the vocal cords. The right recurrent laryngeal nerve is more susceptible to damage during thyroid surgery because it is close to the bifurcation of the right inferior thyroid artery, variably passing in front of, behind, or between the branches.[17]: 820–1  Similarly, thermal injury can occur with the use of radio frequency ablation to remove thyroid nodules.[21][22][23] The nerve is permanently damaged in 0.3–3% of thyroid surgeries, and transient paralysis occurs in 3–8% of surgeries; accordingly, recurrent laryngeal nerve damage is one of the leading causes of medicolegal issues for surgeons.[24] A 2019 systematic review concluded that the available evidence shows no difference between visually identifying the nerve or utilizing intraoperative neuroimaging during surgery, when trying to prevent injury to recurrent laryngeal nerve during surgery. [25]

Tumors edit

The RLN may be compressed by tumors. Studies have shown that 2–18% of lung cancer patients develop hoarseness because of recurrent laryngeal nerve compression, usually left-sided.[26] This is associated with worse outcomes, and when found as a presenting symptom, often indicates inoperable tumors. The nerve may be severed intentionally during lung cancer surgery in order to fully remove a tumor.[27]: 330  The RLN may also be damaged by tumors in the neck, especially with malignant lymph nodes with extra-capsular extension of tumor beyond the capsule of the nodes, which may invade the area that carries the ascending nerve on the right or left.

Other disease edit

In Ortner's syndrome or cardiovocal syndrome, a rare cause of left recurrent laryngeal nerve palsy, expansion of structures within the heart or major blood vessels impinges upon the nerve, causing symptoms of unilateral nerve injury.[28]

Other animals edit

Horses are subject to equine recurrent laryngeal neuropathy, a disease of the axons of the recurrent laryngeal nerves. The cause is not known, although a genetic predisposition is suspected. The length of the nerve is a factor since it is more common in larger horses, and the left side is affected almost exclusively. As the nerve cells die, there is a progressive paralysis of the larynx, causing the airway to collapse. The common presentation is a sound, ranging from a musical whistle to a harsh roar or heaving gasping noise (stertorous), accompanied by worsening performance. The condition is incurable, but surgery can keep the airway open. Experiments with nerve grafts have been tried.[29]: 421–426 

Although uncommon in dogs, bilateral recurrent laryngeal nerve disease may be the cause of wheezing (stridor) when middle-aged dogs inhale.[30]: 771 

In sauropod dinosaurs, the vertebrates with the longest necks, the total length of the vagus nerve and recurrent laryngeal nerve would have been up to 28 metres (92 ft) long in Supersaurus, but these would not be the longest neurons that ever existed: the neurons reaching the tip of the tail would have exceeded 30 metres (98 ft).[31]

Evidence of evolution edit

The extreme detour of the recurrent laryngeal nerves, about 4.6 metres (15 ft) in the case of giraffes,[32]: 74–75  is cited as evidence of evolution, as opposed to intelligent design. The nerve's route would have been direct in the fish-like ancestors of modern tetrapods, traveling from the brain, past the heart, to the gills (as it does in modern fish). Over the course of evolution, as the neck extended and the heart became lower in the body, the laryngeal nerve was caught on the wrong side of the heart. Natural selection gradually lengthened the nerve by tiny increments to accommodate, resulting in the circuitous route now observed.[33]: 360–362 

History edit

Ancient Greek physician Galen demonstrated the nerve course and the clinical syndrome of recurrent laryngeal nerve paralysis, noting that pigs with the nerve severed were unable to squeal. Galen named the nerve the recurrent nerve, and described the same effect in two human infants who had undergone surgery for goiter.[16]: 7–8 [34] In 1838, five years before he would introduce the concept of homology to biology, anatomist Richard Owen reported upon the dissection of three giraffes, including a description of the full course of the left recurrent laryngeal nerve.[35][36] Anatomists Andreas Vesalius and Thomas Willis described the nerve in what is now regarded as an anatomically standard description, and doctor Frank Lahey documented a way for its interoperative identification during thyroid operations.[37]

Notes edit

  1. ^ Namely, the Posterior cricoarytenoid muscles, Lateral cricoarytenoid muscles, Transverse arytenoid muscles, Oblique arytenoid muscles, Thyroarytenoid muscles and Vocalis muscle

References edit

  1. ^ "Recur". Free Dictionary. Merriam-Webster. Retrieved March 1, 2013.
  2. ^ "Recurrent". Medical definition and more. Merriam-Webster. Retrieved March 1, 2013.
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  6. ^ Ross, Lawrence M.; Lamperti, Edward D. (2006). Thieme Atlas of Anatomy: Neck and Internal Organs. Thieme. ISBN 978-1-58890-443-0.
  7. ^ Aronson, Arnold Elvin (2009). Clinical Voice Disorders. Thieme. p. 74. ISBN 978-1-58890-662-5.
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  13. ^ Langmore SE (January 2001). Endoscopic Evaluation and Treatment of Swallowing Disorders. Thieme. ISBN 978-0-86577-838-2.
  14. ^ Sañudo JR, Maranillo E, León X, Mirapeix RM, Orús C, Quer M (June 1999). "An anatomical study of anastomoses between the laryngeal nerves". The Laryngoscope. 109 (6): 983–987. doi:10.1097/00005537-199906000-00026. PMID 10369294. S2CID 26161510.
  15. ^ a b c Yau AY, Verma SP (February 20, 2013). Meyers AD (ed.). Laryngeal Nerve Anatomy. Retrieved January 5, 2014. {{cite book}}: |work= ignored (help)
  16. ^ a b c d e Hydman J (2008). Recurrent laryngeal nerve injury. Stockholm. ISBN 978-91-7409-123-6.{{cite book}}: CS1 maint: location missing publisher (link)
  17. ^ a b Moore KL (1992). Clinically Oriented Anatomy (3rd ed.). Williams & Wilkins. ISBN 0-683-06133-X.
  18. ^ Aljammal J, Hussain I, Ahmad S (2022-03-01). "Management of Recurrent Laryngeal Nerve Injury During Radiofrequency Ablation of Thyroid Nodules". AACE Clinical Case Reports. 8 (2): 102. doi:10.1016/j.aace.2022.02.004. PMC 8984510. PMID 35415225.
  19. ^ Hartl DM, Travagli JP, Leboulleux S, Baudin E, Brasnu DF, Schlumberger M (May 2005). "Clinical review: Current concepts in the management of unilateral recurrent laryngeal nerve paralysis after thyroid surgery". The Journal of Clinical Endocrinology and Metabolism. 90 (5): 3084–3088. doi:10.1210/jc.2004-2533. PMID 15728196.
  20. ^ Yamamoto, Natsuhiro, Yamaguchi, Yoshikazu, Nomura, Takeshi, et al. Successful Assessment of Vocal Cord Palsy Before Tracheal Extubation by Laryngeal Ultrasonography in a Patient After Esophageal Surgery: A Case Report. A&A Case Reports. 2017;9(11):308-310. doi:10.1213/XAA.0000000000000601.
  21. ^ Hussain I, Zulfiqar F, Li X, Ahmad S, Aljammal J (August 2021). "Safety and Efficacy of Radiofrequency Ablation of Thyroid Nodules-Expanding Treatment Options in the United States". Journal of the Endocrine Society. 5 (8): bvab110. doi:10.1210/jendso/bvab110. PMC 8271212. PMID 34258495.
  22. ^ Muhammad H, Santhanam P, Russell JO (June 2021). "Radiofrequency ablation and thyroid nodules: updated systematic review". Endocrine. 72 (3): 619–632. doi:10.1007/s12020-020-02598-6. PMID 33449296. S2CID 231611505.
  23. ^ Allen E, Minutello K, Murcek BW (2022). "Anatomy, Head and Neck, Larynx Recurrent Laryngeal Nerve". StatPearls. Treasure Island (FL): StatPearls Publishing. PMID 29261997. Retrieved 2022-05-24.
  24. ^ Hayward NJ, Grodski S, Yeung M, Johnson WR, Serpell J (January 2013). "Recurrent laryngeal nerve injury in thyroid surgery: a review". ANZ Journal of Surgery. 83 (1–2): 15–21. doi:10.1111/j.1445-2197.2012.06247.x. PMID 22989215. S2CID 8581189.
  25. ^ Cirocchi R, Arezzo A, D'Andrea V, Abraha I, Popivanov GI, Avenia N, et al. (Cochrane Metabolic and Endocrine Disorders Group) (January 2019). "Intraoperative neuromonitoring versus visual nerve identification for prevention of recurrent laryngeal nerve injury in adults undergoing thyroid surgery". The Cochrane Database of Systematic Reviews. 1 (1): CD012483. doi:10.1002/14651858.CD012483.pub2. PMC 6353246. PMID 30659577.
  26. ^ Spiro SG, Gould MK, Colice GL (September 2007). "Initial evaluation of the patient with lung cancer: symptoms, signs, laboratory tests, and paraneoplastic syndromes: ACCP evidenced-based clinical practice guidelines (2nd edition)". Chest. 132 (3 Suppl): 149S–160S. doi:10.1378/chest.07-1358. PMID 17873166.
  27. ^ Carbone DP, Pass HI, Johnson DH, Minna JD (2010). Principles and Practice of Lung Cancer: The Official Reference Text of the IASLC. Lippincott Williams & Wilkins. ISBN 978-0-7817-7365-2. Retrieved August 12, 2013.
  28. ^ Heikkinen J, Milger K, Alejandre-Lafont E, Woitzik C, Litzlbauer D, Vogt JF, et al. (2012). "Cardiovocal Syndrome (Ortner's Syndrome) Associated with Chronic Thromboembolic Pulmonary Hypertension and Giant Pulmonary Artery Aneurysm: Case Report and Review of the Literature". Case Reports in Medicine. 2012: 230736. doi:10.1155/2012/230736. PMC 3477763. PMID 23424588.
  29. ^ Munroe G, Weese S (March 15, 2011). Equine Clinical Medicine, Surgery and Reproduction. Manson Publishing. ISBN 978-1-84076-608-0. Retrieved March 2, 2013.
  30. ^ Slatter DH (2003). Textbook of Small Animal Surgery. Elsevier Health Sciences. ISBN 978-0-7216-8607-3. Retrieved March 2, 2013.
  31. ^ Wedel MJ (June 2012). "A Monument of Inefficiency: The Presumed Course of the Recurrent Laryngeal Nerve in Sauropod Dinosaurs". Acta Palaeontologica Polonica. 57 (2): 251–256. doi:10.4202/app.2011.0019.
  32. ^ Mammal Anatomy: An Illustrated Guide. Marshall Cavendish Corporation. 2010. ISBN 978-0-7614-7882-9.
  33. ^ Dawkins R (2009). "11. History Written All Over Us". The Greatest Show on Earth. New York: Free Press. ISBN 978-1-4165-9478-9. Retrieved November 21, 2009.
  34. ^ Gross CG (May 1998). "Galen and the Squealing Pig". Neuroscientist. 4 (3): 216–221. doi:10.1177/107385849800400317. ISSN 1073-8584. S2CID 72125962.
  35. ^ Owen R (1841). "Notes on the dissection of the Nubian giraffe". Transactions of the Zoological Society of London. Zoological Society of London. pp. 217–248. Retrieved February 27, 2013.
  36. ^ Berry RJ, Hallam A (1986). The Collins Encyclopedia of Animal Evolution. HarperCollins Publishers Limited. pp. 82–83. ISBN 978-0-00-219818-9. Retrieved February 27, 2013.
  37. ^ Ardito G, Revelli L, D'Alatri L, Lerro V, Guidi ML, Ardito F (February 2004). "Revisited anatomy of the recurrent laryngeal nerves". American Journal of Surgery. 187 (2): 249–253. doi:10.1016/j.amjsurg.2003.11.001. PMID 14769313.

External links edit

  • Anatomy figure: 21:04-01 at Human Anatomy Online, SUNY Downstate Medical Center
  • cranialnerves at The Anatomy Lesson by Wesley Norman (Georgetown University) (X)
  • Dissection of a giraffe displaying the laryngeal nerve (youTube)

January 01, 1970
recurrent, laryngeal, nerve, recurrent, nerve, redirects, here, supply, thenar, eminence, recurrent, branch, median, nerve, recurrent, laryngeal, nerve, branch, vagus, nerve, cranial, nerve, that, supplies, intrinsic, muscles, larynx, with, exception, cricothy. Recurrent nerve redirects here For the supply to the thenar eminence see recurrent branch of the median nerve The recurrent laryngeal nerve RLN is a branch of the vagus nerve cranial nerve X that supplies all the intrinsic muscles of the larynx with the exception of the cricothyroid muscles There are two recurrent laryngeal nerves right and left The right and left nerves are not symmetrical with the left nerve looping under the aortic arch and the right nerve looping under the right subclavian artery then traveling upwards They both travel alongside the trachea Additionally the nerves are among the few nerves that follow a recurrent course moving in the opposite direction to the nerve they branch from a fact from which they gain their name Recurrent laryngeal nerveCourse of the left recurrent laryngeal nervePosterior view of tracheal and bronchial lymph glands with the left and right recurrent nerves visible on either side DetailsFromvagus nerveInnervateslarynxposterior cricoarytenoid lateral cricoarytenoid arytenoid thyroarytenoid aryepiglottis esophagus heart trachea inferior pharyngeal constrictor muscleIdentifiersLatinnervus laryngeus recurrensMeSHD012009TA98A14 2 01 166TA26344FMA6246Anatomical terms of neuroanatomy edit on Wikidata The recurrent laryngeal nerves supply sensation to the larynx below the vocal cords give cardiac branches to the deep cardiac plexus and branch to the trachea esophagus and the inferior constrictor muscles The posterior cricoarytenoid muscles the only muscles that can open the vocal folds are innervated by this nerve The recurrent laryngeal nerves are the nerves of the sixth pharyngeal arch The existence of the recurrent laryngeal nerve was first documented by the physician Galen Contents 1 Structure 1 1 Nucleus 1 2 Development 1 3 Variation 2 Function 3 Clinical significance 3 1 Injury 3 2 Surgery 3 3 Tumors 3 4 Other disease 4 Other animals 5 Evidence of evolution 6 History 7 Notes 8 References 9 External linksStructure edit nbsp Passing under the subclavian artery the right recurrent laryngeal nerve has a much shorter course than the left which passes under the aortic arch and ligamentum arteriosum The recurrent laryngeal nerves branch from the vagus nerve relative to which they get their names the term recurrent from Latin re back and currere to run 1 indicates they run in the opposite direction to the vagus nerves from which they branch 2 The vagus nerves run down into the thorax and the recurrent laryngeal nerves run up to the larynx 3 930 931 The vagus nerves from which the recurrent laryngeal nerves branch exit the skull at the jugular foramen and travel within the carotid sheath alongside the carotid arteries through the neck The recurrent laryngeal nerves branch off the vagus the left at the aortic arch and the right at the right subclavian artery The left RLN passes in front of the arch and then wraps underneath and behind it After branching the nerves typically ascend in a groove at the junction of the trachea and esophagus 4 1346 1347 They then pass behind the posterior middle part of the outer lobes of the thyroid gland and enter the larynx underneath the inferior constrictor muscle 3 918 passing into the larynx just posterior to the cricothyroid joint 5 The terminal branch is called the inferior laryngeal nerve 6 19 Unlike the other nerves supplying the larynx the right and left RLNs lack bilateral symmetry 7 The left RLN is longer than the right because it crosses under the arch of the aorta at the ligamentum arteriosum 4 1346 1347 Nucleus edit The somatic motor fibers that innervate the laryngeal muscles and pharyngeal muscles are located in the nucleus ambiguus and emerge from the medulla in the cranial root of the accessory nerve Fibers cross over to and join the vagus nerve in the jugular foramen 8 86 88 Sensory cell bodies are located in the inferior jugular ganglion 9 and the fibers terminate in the solitary nucleus 8 86 88 Parasympathetic fibers to segments of the trachea and esophagus in the neck originate in the dorsal nucleus of the vagus nerve 9 Development edit During human and all vertebrate development a series of pharyngeal arch pairs form in the developing embryo These project forward from the back of the embryo towards the front of the face and neck Each arch develops its own artery nerve that controls a distinct muscle group and skeletal tissue The arches are numbered from 1 to 6 with 1 being the arch closest to the head of the embryo and the fifth arch only existing transiently 10 318 323 Arches 4 and 6 produce the laryngeal cartilages The nerve of the sixth arch becomes the recurrent laryngeal nerve The nerve of the fourth arch gives rise to the superior laryngeal nerve The arteries of the fourth arch which project between the nerves of the fourth and sixth arches become the left sided arch of the aorta and the right subclavian artery The arteries of the sixth arch persist as the ductus arteriosus on the left and are obliterated on the right 10 318 323 After birth the ductus arteriosus regresses to form the ligamentum arteriosum During growth these arteries descend into their ultimate positions in the chest creating the elongated recurrent paths 10 318 323 Variation edit In roughly 1 out of every 100 200 people the right inferior laryngeal nerve is nonrecurrent branching off the vagus nerve around the level of the cricoid cartilage Typically such a configuration is accompanied by variation in the arrangement of the major arteries in the chest most commonly the right subclavian artery arises from the left side of the aorta and crosses behind the esophagus A left nonrecurrent inferior laryngeal nerve is even more uncommon requiring the aortic arch be on the right side accompanied by an arterial variant which prevents the nerve from being drawn into the chest by the left subclavian 11 10 48 In about four people out of five there is a connecting branch between the inferior laryngeal nerve a branch of the RLN and the internal laryngeal nerve a branch of the superior laryngeal nerve This is commonly called the anastomosis of Galen Latin ansa galeni even though anastomosis usually refers to a blood vessel 12 13 35 and is one of several documented anastomoses between the two nerves 14 As the recurrent nerve hooks around the subclavian artery or aorta it gives off several branches There is suspected variability in the configuration of these branches to the cardiac plexus trachea esophagus and inferior pharyngeal constrictor muscle 15 Function editThe recurrent laryngeal nerves control all intrinsic muscles of the larynx except for the cricothyroid muscle 15 a These muscles act to open close and adjust the tension of the vocal cords and include the posterior cricoarytenoid muscles the only muscle to open the vocal cords 16 10 11 The nerves supply muscles on the same side of the body with the exception of the interarytenoid muscle which is innervated from both sides 15 The nerves also carry sensory information from the mucous membranes of the larynx below the lower surface of the vocal fold 17 847 9 as well as sensory secretory and motor fibres to the cervical segments of the esophagus and the trachea 8 142 144 Clinical significance editInjury edit nbsp Recurrent laryngeal nerve visible during resection of a goitre The recurrent laryngeal nerves may be injured as a result of trauma during surgery as a result of tumour spread or due to other means 16 12 Injury to the recurrent laryngeal nerves can result in a weakened voice hoarseness or loss of voice aphonia and cause problems in the respiratory tract 18 16 11 12 Injury to the nerve may paralyze the posterior cricoarytenoid muscle on the same side This is the sole muscle responsible for opening the vocal cords and paralysis may cause difficulty breathing dyspnea during physical activity 19 Injury to both the right and left nerve may result in more serious damage such as the inability to speak Additional problems may emerge during healing as nerve fibres that re anastamose may result in vocal cord motion impairment uncoordinated movements of the vocal cord 16 12 13 Surgery edit The nerve receives close attention from surgeons because the nerve is at risk for injury during neck surgery especially thyroid and parathyroid surgery as well as esophagectomy 20 4 Nerve damage can be assessed by laryngoscopy during which a stroboscopic light confirms the absence of movement in the affected side of the vocal cords The right recurrent laryngeal nerve is more susceptible to damage during thyroid surgery because it is close to the bifurcation of the right inferior thyroid artery variably passing in front of behind or between the branches 17 820 1 Similarly thermal injury can occur with the use of radio frequency ablation to remove thyroid nodules 21 22 23 The nerve is permanently damaged in 0 3 3 of thyroid surgeries and transient paralysis occurs in 3 8 of surgeries accordingly recurrent laryngeal nerve damage is one of the leading causes of medicolegal issues for surgeons 24 A 2019 systematic review concluded that the available evidence shows no difference between visually identifying the nerve or utilizing intraoperative neuroimaging during surgery when trying to prevent injury to recurrent laryngeal nerve during surgery 25 Tumors edit The RLN may be compressed by tumors Studies have shown that 2 18 of lung cancer patients develop hoarseness because of recurrent laryngeal nerve compression usually left sided 26 This is associated with worse outcomes and when found as a presenting symptom often indicates inoperable tumors The nerve may be severed intentionally during lung cancer surgery in order to fully remove a tumor 27 330 The RLN may also be damaged by tumors in the neck especially with malignant lymph nodes with extra capsular extension of tumor beyond the capsule of the nodes which may invade the area that carries the ascending nerve on the right or left Other disease edit In Ortner s syndrome or cardiovocal syndrome a rare cause of left recurrent laryngeal nerve palsy expansion of structures within the heart or major blood vessels impinges upon the nerve causing symptoms of unilateral nerve injury 28 Other animals editHorses are subject to equine recurrent laryngeal neuropathy a disease of the axons of the recurrent laryngeal nerves The cause is not known although a genetic predisposition is suspected The length of the nerve is a factor since it is more common in larger horses and the left side is affected almost exclusively As the nerve cells die there is a progressive paralysis of the larynx causing the airway to collapse The common presentation is a sound ranging from a musical whistle to a harsh roar or heaving gasping noise stertorous accompanied by worsening performance The condition is incurable but surgery can keep the airway open Experiments with nerve grafts have been tried 29 421 426 Although uncommon in dogs bilateral recurrent laryngeal nerve disease may be the cause of wheezing stridor when middle aged dogs inhale 30 771 In sauropod dinosaurs the vertebrates with the longest necks the total length of the vagus nerve and recurrent laryngeal nerve would have been up to 28 metres 92 ft long in Supersaurus but these would not be the longest neurons that ever existed the neurons reaching the tip of the tail would have exceeded 30 metres 98 ft 31 Evidence of evolution editThe extreme detour of the recurrent laryngeal nerves about 4 6 metres 15 ft in the case of giraffes 32 74 75 is cited as evidence of evolution as opposed to intelligent design The nerve s route would have been direct in the fish like ancestors of modern tetrapods traveling from the brain past the heart to the gills as it does in modern fish Over the course of evolution as the neck extended and the heart became lower in the body the laryngeal nerve was caught on the wrong side of the heart Natural selection gradually lengthened the nerve by tiny increments to accommodate resulting in the circuitous route now observed 33 360 362 History editAncient Greek physician Galen demonstrated the nerve course and the clinical syndrome of recurrent laryngeal nerve paralysis noting that pigs with the nerve severed were unable to squeal Galen named the nerve the recurrent nerve and described the same effect in two human infants who had undergone surgery for goiter 16 7 8 34 In 1838 five years before he would introduce the concept of homology to biology anatomist Richard Owen reported upon the dissection of three giraffes including a description of the full course of the left recurrent laryngeal nerve 35 36 Anatomists Andreas Vesalius and Thomas Willis described the nerve in what is now regarded as an anatomically standard description and doctor Frank Lahey documented a way for its interoperative identification during thyroid operations 37 Notes edit Namely the Posterior cricoarytenoid muscles Lateral cricoarytenoid muscles Transverse arytenoid muscles Oblique arytenoid muscles Thyroarytenoid muscles and Vocalis muscleReferences edit Recur Free Dictionary Merriam Webster Retrieved March 1 2013 Recurrent Medical definition and more Merriam Webster Retrieved March 1 2013 a b Drake RL Vogl W Mitchell AW 2005 Gray s Anatomy for Students Philadelphia Elsevier Churchill Livingstone ISBN 978 0 8089 2306 0 a b c Brunicardi FC Brunicardi F Andersen D Raphael EP Billiar T Dunn D et al September 11 2009 Schwartz s Principles of Surgery 9th ed McGraw Hill Professional ISBN 978 0 07 154769 7 Agur A M R Dalley Arthur F 2009 Grant s Atlas of Anatomy Lippincott Williams amp Wilkins p 770 ISBN 978 0 7817 7055 2 Ross Lawrence M Lamperti Edward D 2006 Thieme Atlas of Anatomy Neck and Internal Organs Thieme ISBN 978 1 58890 443 0 Aronson Arnold Elvin 2009 Clinical Voice Disorders Thieme p 74 ISBN 978 1 58890 662 5 a b c Schulte E Schumacher U Rude J 2007 Thieme Atlas of Anatomy Head and Neuroanatomy Thieme ISBN 978 1 58890 441 6 a b Alberstone Cary D 2009 Anatomic Basis of Neurologic Diagnosis Thieme pp 260 261 ISBN 978 0 86577 976 1 a b c Larsen William J 1993 Human embryology Churchill Livingstone ISBN 0 443 08724 5 Retrieved February 26 2013 Duh QY Clark OH Kebebew E October 14 2009 Atlas of Endocrine Surgical Techniques Elsevier Health Sciences ISBN 978 1 4160 4844 2 Retrieved March 6 2013 Naidu L Ramsaroop L Partab P Satyapal KS September 2012 Galen s anastomosis revisited Clinical Anatomy 25 6 722 728 doi 10 1002 ca 22011 PMID 22162120 S2CID 23512491 Langmore SE January 2001 Endoscopic Evaluation and Treatment of Swallowing Disorders Thieme ISBN 978 0 86577 838 2 Sanudo JR Maranillo E Leon X Mirapeix RM Orus C Quer M June 1999 An anatomical study of anastomoses between the laryngeal nerves The Laryngoscope 109 6 983 987 doi 10 1097 00005537 199906000 00026 PMID 10369294 S2CID 26161510 a b c Yau AY Verma SP February 20 2013 Meyers AD ed Laryngeal Nerve Anatomy Retrieved January 5 2014 a href Template Cite book html title Template Cite book cite book a work ignored help a b c d e Hydman J 2008 Recurrent laryngeal nerve injury Stockholm ISBN 978 91 7409 123 6 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link a b Moore KL 1992 Clinically Oriented Anatomy 3rd ed Williams amp Wilkins ISBN 0 683 06133 X Aljammal J Hussain I Ahmad S 2022 03 01 Management of Recurrent Laryngeal Nerve Injury During Radiofrequency Ablation of Thyroid Nodules AACE Clinical Case Reports 8 2 102 doi 10 1016 j aace 2022 02 004 PMC 8984510 PMID 35415225 Hartl DM Travagli JP Leboulleux S Baudin E Brasnu DF Schlumberger M May 2005 Clinical review Current concepts in the management of unilateral recurrent laryngeal nerve paralysis after thyroid surgery The Journal of Clinical Endocrinology and Metabolism 90 5 3084 3088 doi 10 1210 jc 2004 2533 PMID 15728196 Yamamoto Natsuhiro Yamaguchi Yoshikazu Nomura Takeshi et al Successful Assessment of Vocal Cord Palsy Before Tracheal Extubation by Laryngeal Ultrasonography in a Patient After Esophageal Surgery A Case Report A amp A Case Reports 2017 9 11 308 310 doi 10 1213 XAA 0000000000000601 Hussain I Zulfiqar F Li X Ahmad S Aljammal J August 2021 Safety and Efficacy of Radiofrequency Ablation of Thyroid Nodules Expanding Treatment Options in the United States Journal of the Endocrine Society 5 8 bvab110 doi 10 1210 jendso bvab110 PMC 8271212 PMID 34258495 Muhammad H Santhanam P Russell JO June 2021 Radiofrequency ablation and thyroid nodules updated systematic review Endocrine 72 3 619 632 doi 10 1007 s12020 020 02598 6 PMID 33449296 S2CID 231611505 Allen E Minutello K Murcek BW 2022 Anatomy Head and Neck Larynx Recurrent Laryngeal Nerve StatPearls Treasure Island FL StatPearls Publishing PMID 29261997 Retrieved 2022 05 24 Hayward NJ Grodski S Yeung M Johnson WR Serpell J January 2013 Recurrent laryngeal nerve injury in thyroid surgery a review ANZ Journal of Surgery 83 1 2 15 21 doi 10 1111 j 1445 2197 2012 06247 x PMID 22989215 S2CID 8581189 Cirocchi R Arezzo A D Andrea V Abraha I Popivanov GI Avenia N et al Cochrane Metabolic and Endocrine Disorders Group January 2019 Intraoperative neuromonitoring versus visual nerve identification for prevention of recurrent laryngeal nerve injury in adults undergoing thyroid surgery The Cochrane Database of Systematic Reviews 1 1 CD012483 doi 10 1002 14651858 CD012483 pub2 PMC 6353246 PMID 30659577 Spiro SG Gould MK Colice GL September 2007 Initial evaluation of the patient with lung cancer symptoms signs laboratory tests and paraneoplastic syndromes ACCP evidenced based clinical practice guidelines 2nd edition Chest 132 3 Suppl 149S 160S doi 10 1378 chest 07 1358 PMID 17873166 Carbone DP Pass HI Johnson DH Minna JD 2010 Principles and Practice of Lung Cancer The Official Reference Text of the IASLC Lippincott Williams amp Wilkins ISBN 978 0 7817 7365 2 Retrieved August 12 2013 Heikkinen J Milger K Alejandre Lafont E Woitzik C Litzlbauer D Vogt JF et al 2012 Cardiovocal Syndrome Ortner s Syndrome Associated with Chronic Thromboembolic Pulmonary Hypertension and Giant Pulmonary Artery Aneurysm Case Report and Review of the Literature Case Reports in Medicine 2012 230736 doi 10 1155 2012 230736 PMC 3477763 PMID 23424588 Munroe G Weese S March 15 2011 Equine Clinical Medicine Surgery and Reproduction Manson Publishing ISBN 978 1 84076 608 0 Retrieved March 2 2013 Slatter DH 2003 Textbook of Small Animal Surgery Elsevier Health Sciences ISBN 978 0 7216 8607 3 Retrieved March 2 2013 Wedel MJ June 2012 A Monument of Inefficiency The Presumed Course of the Recurrent Laryngeal Nerve in Sauropod Dinosaurs Acta Palaeontologica Polonica 57 2 251 256 doi 10 4202 app 2011 0019 Mammal Anatomy An Illustrated Guide Marshall Cavendish Corporation 2010 ISBN 978 0 7614 7882 9 Dawkins R 2009 11 History Written All Over Us The Greatest Show on Earth New York Free Press ISBN 978 1 4165 9478 9 Retrieved November 21 2009 Gross CG May 1998 Galen and the Squealing Pig Neuroscientist 4 3 216 221 doi 10 1177 107385849800400317 ISSN 1073 8584 S2CID 72125962 Owen R 1841 Notes on the dissection of the Nubian giraffe Transactions of the Zoological Society of London Zoological Society of London pp 217 248 Retrieved February 27 2013 Berry RJ Hallam A 1986 The Collins Encyclopedia of Animal Evolution HarperCollins Publishers Limited pp 82 83 ISBN 978 0 00 219818 9 Retrieved February 27 2013 Ardito G Revelli L D Alatri L Lerro V Guidi ML Ardito F February 2004 Revisited anatomy of the recurrent laryngeal nerves American Journal of Surgery 187 2 249 253 doi 10 1016 j amjsurg 2003 11 001 PMID 14769313 External links editAnatomy figure 21 04 01 at Human Anatomy Online SUNY Downstate Medical Center cranialnerves at The Anatomy Lesson by Wesley Norman Georgetown University X Dissection of a giraffe displaying the laryngeal nerve youTube Retrieved from https en wikipedia org w index php title Recurrent laryngeal nerve amp oldid 1170668053, wikipedia, wiki, book, 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