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Either of the tenth and longest of the cranial nerves, passing through the neck and thorax into the abdomen and supplying sensation to part of the ear, the tongue, the larynx, and the pharynx, motor impulses to the vocal cords, and motor and secretory impulses to the abdominal and thoracic viscera. Also called pneumogastric nerve.
[New Latin (nervus) vagus, wandering (nerve), from Latin.]
‘Vagus’ means ‘wanderer’ — and that is indeed what these nerves are. Attached to the brain stem, and emerging through the base of the skull into the neck, the right and left vagus nerves innervate through their branches a widespread range of body parts, from the head down to the abdominal organs.
These nerves contain fibres that are both incoming to the central nervous system (the majority) and outgoing from it. Sensory information comes from the external ear and its canal, and from the back of the throat (pharynx) and upper part of the larynx. Longer fibres travel in the branches of the vagi from the organs in the chest and in the abdomen: from the lungs and the heart, and from the alimentary tract, including the oesophagus and right down to half way along the colon. The incoming signals lead to many reflex responses, mediated at cell stations in the brain stem, and entailing either autonomic or somatic motor responses. For example: irritants in the airways stimulate vagal sensory nerve endings and lead to a cough reflex; information on the state of inflation of the lungs causes modification of the breathing pattern; distension of the stomach leads to reflex relaxation of its wall.
The outgoing, motor fibres in the vagus nerves represent most of the cranial component of the parasympathetic division of the autonomic nervous system. Vagal stimulation slows the heart beat, and excessive stimulation can stop it entirely. When Otto Loewi first showed, in 1921, that stimulation of the vagus nerve to a frog heart caused something to be released that could slow down another heart that was linked to the first only by fluid perfusion, he called the unknown factor Vagusstoff. We know now that vagal nerve endings act on the heart's pacemaker by the release of the transmitter acetylcholine; this modulation of the heart rate is continuous, counterbalancing the action of the sympathetic nerves at the same site. The vagus nerves also provide a pathway for reflex reduction of the cardiac output if the blood pressure tends to rise. In the lungs, they stimulate the smooth muscle in the wall of the bronchial tree, tending to increase the resistance to airflow (by causing bronchoconstriction), again counterbalancing the sympathetic effect which tends towards relaxation. In the alimentary tract they stimulate smooth muscle in the walls of the stomach and of the intestines, acting through the nerve networks between the layers of smooth muscle, but they have the opposite action on the smooth muscle sphincter that tends to prevent the stomach contents from moving on. They stimulate glandular secretions of stomach acid and of the digestive enzymes that are released into the stomach and intestine, and the ejection of bile from the gall bladder. They also influence the release from the pancreas of the hormones that promote the storage of absorbed nutrients. All these effects add up to support of activity in the alimentary system during and after eating, when the parasympathetic effects predominate over the opposite quietening effects of the sympathetic nerve supply.
The term ‘vaso-vagal’ attack refers to fainting, when — from a variety of causes ranging from emotional shock to the pain of injury — there is a strong parasympathetic outflow in the vagus nerves, causing slowing of the heart that leads to a fall in blood pressure sufficient to cause unconsciousness.
— Sheila Jennett
See also alimentary system; autonomic nervous system; cranial nerves; visceral sensation.
The tenth cranial nerve; a mixed parasympathetic, visceral, afferent, motor, and general sensory nerve with laryngeal, pharyngeal, bronchial, esophageal, gastric, and many other branches.
One of a pair of nerves that originate in the medulla oblongata, and extend down into the thorax and abdomen to innervate the heart, lungs, and parts of the alimentary canal. The vagus nerve carries motor neurones to the muscles which facilitate swallowing, and to both afferent neurones and efferent neurones of the parasympathetic nervous system.
Vagus nerve.
| Nerve: Vagus nerve | ||
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| Plan of upper portions of glossopharyngeal, vagus, and accessory nerves. | ||
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| Course and distribution of the glossopharyngeal, vagus, and accessory nerves. | ||
| Latin | nervus vagus | |
| Gray's | subject #205 910 | |
| Innervates | Levator veli palatini, Salpingopharyngeus, Palatoglossus, Palatopharyngeus, Superior pharyngeal constrictor, Middle pharyngeal constrictor, Inferior pharyngeal constrictor | |
| MeSH | Vagus+Nerve | |
The vagus nerve (also called pneumogastric nerve or cranial nerve X) is the tenth of twelve paired cranial nerves, and is the only nerve that starts in the brainstem (within the medulla oblongata) and extends, through the jugular foramen, down below the head, to the neck, chest and abdomen.
The medieval Latin word vagus means literally "Wandering" (the words vagrant, vagabond, and vague come from the same root). It is also called the pneumogastric nerve since it innervates both the lungs and the stomach.
The vagus descends from the spinal cord in the carotid sheath, lateral to the carotid artery. It carries on past the aortic arch to dip inferiorly behind the left bronchus. Here it forms the pulmonary plexus, after giving rise to the recurrent laryngeal nerve.
The vagus nerve supplies motor parasympathetic fibers to all the organs except the suprarenal (adrenal) glands, from the neck down to the second segment of the transverse colon. The vagus also controls a few skeletal muscles, namely:
This means that the vagus nerve is responsible for such varied tasks as heart rate, gastrointestinal peristalsis, sweating, and quite a few muscle movements in the mouth, including speech (via the recurrent laryngeal nerve) and keeping the larynx open for breathing. It also receives some sensation from the outer ear, via the Auricular branch (also known as Alderman's nerve) and part of the meninges.
Parasympathetic innervation of the heart is mediated by the vagus nerve. The right vagus innervates the Sinoatrial node. Parasympathetic hyperstimulation predisposes those affected to bradyarrhythmias. The left vagus when hyperstimulated predisposes the heart to Atrioventricular (AV) blocks.
At this location Otto Loewi first proved that nerves secrete substances called neurotransmitters which have effects on receptors in target tissues. Loewi described the substance released by the vagus nerve as vagusstoff, which was later found to be acetylcholine.
The vagus nerve has three associated nuclei, the dorsal motor nucleus, the nucleus ambiguus and the solitary nucleus.
Drugs that inhibit the muscarinic cholinergic receptor (anticholinergics) such as atropine and scopolamine are called vagolytic because they inhibit the action of the vagus nerve on the heart, gastrointestinal tract and other organs. Anticholinergic drugs increase heart rate and are used to treat bradycardia(slow heart rate) and asystole, which is when the heart has no electrical activity. Anticholinergic drugs relax the detrusor muscle and cause constipation which again involves the vagus nerve.
Bulimics and anorexics have high vagal activity which is associated with the arrhythmias seen in these patients.
Vagus nerve stimulation (VNS) therapy using a pacemaker-like device implanted in the chest is a treatment used since 1997 to control seizures in epilepsy patients and has recently been approved for treating drug-resistant cases of clinical depression.[1] A convenient, non-invasive VNS device that stimulates an afferent branch of the vagus nerve is also being developed and will soon undergo trials.
A degree of intermittent VNS can be achieved by daily breathing exercises (for example, Pranayama) over a period of several weeks. In some patients, such proactive relaxation exercises have been found to correlate with lower blood pressure and lower heart rate and more stable moods.[citation needed] The Valsalva maneuver may activate the vagus nerve and is a "natural" way to achieve the same effect in some patients. Patients with atrial fibrillation, supraventricular tachycardia and other illnesses may be trained to perform the valsalva maneuver (or find it for themselves).
Vagotomy (cutting of the vagus nerve) is a now-obsolete therapy that was performed for peptic ulcer disease. Vagotomy is currently being researched as a less invasive alternative weight loss procedure to gastric bypass surgery[2]. The procedure curbs the feeling of hunger and is sometimes performed in conjunction with putting bands on patients's stomachs, resulting in average weight loss of 43% at six months with diet and exercise[3]. Five pencil-sized scars are the result of the procedure.
See also:
Activation of the vagus nerve typically leads to a reduction in heart rate, blood pressure, or both. This occurs commonly in the setting of gastrointestinal illness such as viral gastroenteritis or acute cholecystitis, or in response to other stimuli, including carotid sinus massage, Valsalva maneuver, or pain from any cause, particularly having blood drawn. When the circulatory changes are great enough, vasovagal syncope results. Relative dehydration tends to amplify these responses.
Excessive activation of the vagal nerve during emotional stress, which is a parasympathetic overcompensation of a strong sympathetic nervous system response associated with stress, can also cause vasovagal syncope because of a sudden drop in blood pressure and heart rate. Vasovagal syncope affects young children and women more often. It can also lead to temporary loss of bladder control under moments of extreme fear.
Research has shown that women who have complete transection of the spinal cord can experience orgasms through the vagus nerve, which can go from the uterus, cervix and probably the vagina to the brain.[1][4]
The patient complains of hoarse voice, difficulty in swallowing (dysphagia) and choking when drinking fluid. There is also loss of gag reflex. Uvula deviates away from the side of lesion and there is failure of palate elevation.
 Section of the neck at about the level of the sixth cervical vertebra. |
 Transverse section of thorax, showing relations of pulmonary artery. |
 The arch of the aorta, and its branches. |
 Dura mater and its processes exposed by removing part of the right half of the skull, and the brain. |
 The tracheobronchial lymph glands. |
 Section of the medulla oblongata at about the middle of the olive. |
 Hind- and mid-brains; postero-lateral view. |
 Upper part of medulla spinalis and hind- and mid-brains; posterior aspect, exposed in situ. |
 The right sympathetic chain and its connections with the thoracic, abdominal, and pelvic plexuses. |
 The celiac ganglia with the sympathetic plexuses of the abdominal viscera radiating from the ganglia. |
 The position and relation of the esophagus in the cervical region and in the posterior mediastinum. Seen from behind. |
 The thyroid gland and its relations. |
 The thymus of a full-term fetus, exposed in situ. |
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 | Dictionary. The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2007. Published by Houghton Mifflin Company. All rights reserved. Read more |
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| World of the Body. The Oxford Companion to the Body. Copyright © 2001, 2003 by Oxford University Press. All rights reserved. Read more |
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| Dental Dictionary. Mosby's Dental Dictionary. Copyright © 2004 by Elsevier, Inc. All rights reserved. Read more |
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| Sports Science and Medicine. The Oxford Dictionary of Sports Science & Medicine. Copyright © Michael Kent 1998, 2006, 2007. All rights reserved. Read more |
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| Veterinary Dictionary. Saunders Comprehensive Veterinary Dictionary 3rd Edition. Copyright © 2007 by D.C. Blood, V.P. Studdert and C.C. Gay, Elsevier. All rights reserved. Read more |
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| Wikipedia. This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Vagus nerve". Read more |
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