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Thoracic Sympathetic Trunk, Phrenic Nerves, Vagus Nerve, Azygous System & Thoracic Duct Learning Objectives At the end of the lecture, the student should be able to: Discuss the thoracic part of sympathetic chain, ganglia, course and branches. Describe the origin, course and braches of Vagus nerves. Describe the origin, course and braches of Phrenic nerves. Describe formation, course, and termination of Azygous, Homozygous and Accessory Hemiazygous Veins Discuss their area of drainage and Tributaries. Discuss Formation, Course and Termination of Thoracic Duct. Describe the area of drainage of Thoracic Duct. Sympathetic Trunks • • • • • An important component of sympathetic part of autonomic division of PNS. considered a component of posterior mediastinum as they pass through thorax. This portion consists of two parallel cords punctuated by 11 or 12 ganglia Thoracic sympathetic ganglia are connected to adjacent thoracic spinal nerves by white and gray rami communicates. Numbered according to thoracic spinal nerve with which they are associated. • • • • THORACIC SYMPATHETIC CHAIN Lies against neck of ribs and costovertebral junctions. 12 thoracic ganglia pairs First one often fused with inferior cervical ganglion Referred to as stellate ganglion collectively. THORACIC SYMPATHETIC CHAIN • Cervical ganglia: Superior. Middle. Inferior. • • • THORACIC SYMPATHETIC CHAIN The preganglionic sympathetic supply to the thoracic viscera is from T1–5. The postganglionic supply is from: Superior, middle, and inferior cervical ganglia. T1-T5 paravertebral ganglia. They exit the chain as direct fibers and travel downwards to enter the thorax as cardiopulmonary splanchnic nerves. Course of Sympathetic Trunk in Thorax In superior portion of posterior mediastinum, trunks are anterior to the neck of ribs. Inferiorly, become more medial in position until they lie on lateral aspect of vertebral bodies. • Sympathetic trunks leave thorax by passing posterior to diaphragm under medial arcuate ligament or through crura of diaphragm. • Trunks are covered by parietal pleura throughout their course. Branches of Sympathetic Trunk Two types of medial branches are given off by ganglia: • First type includes branches from the upper five ganglia; • Second type includes branches from the lower seven ganglia. Branches from upper part of Sympathetic Trunk First type: • Branches from upper five ganglia. • Consists mainly of postganglionic sympathetic fibers, which supply various thoracic viscera. • Relatively small branches, • Contain visceral afferent fibers. Second type: • Includes branches from lower seven ganglia. • Consists mainly of preganglionic sympathetic fibers, which supply the various abdominal and pelvic viscera. Branches from Lower part of Sympathetic Trunk • These are Large. • Carry visceral afferent fibers. • Form three thoracic splanchnic nerves referred to as: Greater splanchnic nerve Lesser splanchnic nerve Least splanchnic nerve • Greater Splanchnic Nerve Arises from fifth to ninth or tenth thoracic ganglia on each side . • Descends across vertebral bodies moving in a medial direction. • Passes into abdomen through crus of diaphragm. • Ends in the celiac ganglion. • Lesser Splanchnic Nerve Arises from ninth and tenth, or tenth and eleventh thoracic ganglia. • Descends across vertebral bodies moving in a medial direction. • Passes into abdomen through the crus of diaphragm to end in aorticorenal ganglion. • • • • Lowest Splanchnic Nerve Arises from twelfth thoracic ganglion. Descends and passes into abdomen through crus of diaphragm to end in renal plexus. THORACIC SYMPATHETIC CHAIN The cardiopulmonary splanchnic nerves travel on their own and do not accompany other nerves or vessels. Function: Coronary artery dilation. Increase heart rate. Bronchodilation. • • • • • • • Formation of Thoracic Duct principal channel through which lymph from most of the body is returned to the venous system. It begins as a confluence of lymph trunks in the abdomen, sometimes forming a saccular dilation referred to as the cisterna chyli (chyle cistern), which drains the abdominal viscera and walls, pelvis, perineum, and lower limbs. Course of Thoracic Duct extends from vertebra LII to the root of the neck. Entering the thorax, posterior to the aorta, through the aortic hiatus of the diaphragm, the thoracic duct ascends through the posterior mediastinum to the right of midline between the thoracic aorta on the left and the azygos vein on the right. lies posterior to the diaphragm and the esophagus and anterior to the bodies of the vertebra. At vertebral level TV, the thoracic duct moves to the left of the midline and enters the superior • • • • mediastinum. It continues through the superior mediastinum and into the neck. LEFT THORACIC DUCT Receives lymph from left internal jugular lymph trunk. Receives lymph from left subclavian lymph trunk. Empties into venous system at junction of: Left internal jugular vein. Left subclavian vein. Termination of Thoracic Duct It terminates by joining the left brachiocephalic vein in the angle between left Internal jugular vein and left subclavian vein • RIGHT THORACIC DUCT Drains upper right thoracic cavity, right upper extremity, and right side of head and neck. Empties into venous system at junction of: Right internal jugular vein. Right subclavian vein. • • • LEFT THORACIC DUCT Arises from cisterna chyl at union of right and left lumbar trunks. Begins on front of vertebral body T12 or L1. Runs up through the thorax along the front of the vertebral column. • • • • LEFT THORACIC DUCT At first it lies to the right of midline. It moves over to the left side when it reaches level T-5. Receives most of lymph from body below diaphragm. Drains left side of thoracic cavity and part of right. • Area of Drainage of Thoracic Duct Thoracic Duct usually receives the contents from: • Both the lower limb • Confluence of lymph trunks in the abdomen; • Descending thoracic lymph trunks draining the lower six or seven intercostal spaces on both sides; • Upper intercostal lymph trunks draining the upper left five or six intercostal spaces • Ducts from posterior mediastinal nodes; • Ducts from posterior diaphragmatic nodes. • Vagus Nerves [X] Pass through superior and posterior divisions of mediastinum on their way to abdominal cavity. • As they pass through the thorax, provide parasympathetic innervation to thoracic viscera. • Carry visceral afferents from thoracic viscera. Right Vagus Nerve • Enters the superior mediastinum. • Lies between right brachiocephalic vein. and brachiocephalic trunk. • Descends in a posterior direction toward trachea, crosses the lateral surface of the trachea. • Passes posteriorly to the root of right lung to reach esophagus. As it passes through superior mediastinum, it gives branches to the: esophagus, cardiac plexus, and pulmonary plexus. Left Vagus Nerve • • • • • • • • It enters superior mediastinum posterior to left brachiocephalic vein and between the left common carotid and left subclavian arteries. As it passes into the superior mediastinum, it lies just deep to the mediastinal part of the parietal pleura and crosses the left side of the arch of aorta. it gives branches to: Esophagus, Cardiac plexus, and Pulmonary plexus. Also gives rise to the left recurrent laryngeal nerve It continues to descend in a posterior direction . Passes posterior to root of left lung to reach esophagus in posterior mediastinum • Left Recurrent Laryngeal Nerve Branch of left vagus nerve. • After origin, it passes at inferior margin of arch of aorta just lateral to ligamentum arteriosum. • Passes inferior to arch of aorta before ascending on its medial surface. • Entering a groove between the trachea and esophagus, the left recurrent laryngeal nerve continues superiorly to enter the neck and terminate in the larynx • Phrenic Nerves Arise in cervical region mainly from fourth, but also from third and fifth cervical spinal cord segments. • Phrenic nerves descend through thorax to supply motor and sensory innervation to diaphragm and its associated membranes. • Provide innervation through somatic afferent fibers to the mediastinal pleura, fibrous pericardium, and parietal layer of serous pericardium. • • • • • • • • • • Right Phrenic Nerve Enters superior mediastinum lateral to right vagus nerve. Lateral and slightly posterior to beginning of the right brachiocephalic vein. It continues inferiorly along the right side of this vein and the right side of the superior vena cava. On entering middle mediastinum, right phrenic nerve descends along right side of pericardial sac, within the fibrous pericardium, anterior to the root of the right lung. The pericardiacophrenic vessels accompany it through most of its course in the thorax. Leaves thorax by passing through diaphragm with inferior vena cava. Paralysis of Left Recurrent Laryngeal Nerve Branch of left vagus nerve. Passes between pulmonary artery and aorta, a region known clinically as aortopulmonary window. May be compressed in any patient presenting with a pathologic mass in this region. This compression results in vocal cord paralysis and hoarseness of the voice. Lymph node enlargement, often associated with spread of lung cancer, is a common condition that may produce compression. • Chest radiography is therefore usually carried out for all patients who present with a hoarse. Paralysis of Right Recurrent Laryngeal Nerve More superiorly, the right vagus nerve gives off the right recurrent laryngeal nerve which 'hooks' around the right subclavian artery at the superior sulcus of the right lung. If a patient presents with a hoarse voice and a right vocal cord palsy is demonstrated at laryngoscopy, chest radiography with an apical lordotic view should be obtained to assess for cancer in the right lung apex (Pancoast's tumor). • • • • • Left Phrenic Nerve Enters superior mediastinum in a position similar to path taken by right phrenic nerve. Lies lateral to left vagus nerve and lateral and slightly posterior to beginning of left brachiocephalic vein. Continues to descend across left lateral surface of arch of aorta, passing superficially to the left vagus nerve and left superior intercostal vein. On entering the middle mediastinum, left phrenic nerve follows left side of pericardial sac, within the fibrous pericardium, anterior to root of left lung. Accompanied by pericardiacophrenic vessels. • • • Leaves thorax by piercing diaphragm near the apex of heart. Esophageal Plexus After passing posteriorly to root of lungs, right and left vagus nerves approach esophagus. each nerve divides into several branches that spread over this structure, forming the esophageal plexus. There is some mixing of fibers from the two vagus nerves as the plexus continues inferiorly on the esophagus toward the diaphragm. Just above the diaphragm, fibers of the plexus converge to form two trunks: Esophageal Plexus Anterior vagal trunk on the anterior surface of the esophagus, mainly from fibers originally in the left vagus nerve Posterior vagal trunk on the posterior surface of the esophagus, mainly from fibers originally in the right vagus nerve. The vagal trunks continue on the surface of the esophagus as it passes through the diaphragm into the abdomen. References GRAYS ANATOMY FOR STUDENTS 2004, -by Richard Drake, Wayne Vogl, Adam W.M. Mitchell GRANT'S.ATLAS.OF.ANATOMY.12th. Anne M. R. Ager and Arther F. Delly MOORE, KEITH L. - CLINICALLY ORIENTED ANATOMY, and Keith L. Moore by Keith L. Moore *************************************************************************************