Anatomy, Thorax, Thoracic Duct - StatPearls - NCBI Bookshelf

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StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2025 Jan-.

StatPearls [Internet].

Show detailsTreasure Island (FL): StatPearls Publishing; 2025 Jan-.Search term Anatomy, Thorax, Thoracic Duct

Maira Ilahi; Kayla St Lucia; Tahir B. Ilahi.

Author Information and Affiliations

Authors

Maira Ilahi1; Kayla St Lucia2; Tahir B. Ilahi3.

Affiliations

1 Campbell University School of OM2 Lake Erie College of Osteopathic Medicine3 Unity Point Health/ OSF St. Francis MC

Last Update: July 24, 2023.

Introduction

Lymphatic ducts empty lymph fluid into the venous system. The two lymphatic ducts of the body are the right lymphatic duct and the thoracic duct. The thoracic duct is the larger of the two and responsible for lymph drainage from the entire body except for the right sides of the head and neck, the right side of the thorax, and the right upper extremity which are primarily drained by the right lymphatic duct.[1][2]

Structure and Course

The thoracic duct is 38 to 45 centimeters long and 2 to 5 millimeters in diameter. It runs from the superior aspect of the cisterna chyli, a lymph sac at the L2 vertebral level, to the lower cervical spine. From the cisterna chyli, the duct continues superiorly, running between the aorta and the azygos vein and anterior to the vertebral column. The thoracic duct ascends through the aortic hiatus of the diaphragm entering the posterior mediastinum, still to the right of the vertebral column. It courses posterior to the esophagus at the T7 level and crosses over the midline to the left side of the thorax around the T5 vertebral level. As it continues upward, it runs behind the aorta and to the left of the esophagus ascending 2-3 cm above the clavicle. In the superior mediastinum, it passes behind the left common carotid artery, the vagus nerve, and the internal jugular vein. It then descends to empty into the junction of the left subclavian and internal jugular veins.

The wall of the thoracic duct has three layers: the intima, the media, and the adventitia. It also has a basement membrane. The media is composed of smooth muscle and connective tissue. The smooth muscle contracts regularly to move lymph flow forward. The thoracic duct also contains valves which may be unicuspid, bicuspid, or tricuspid, but are usually bicuspid. At the junction of the lymphatic and venous system, a bicuspid valve prevents venous backflow into the lymphatic system.[3]

Structure and Function

The function of the thoracic duct is to transport lymph back into the circulatory system. Interstitial fluid is collected by lymph capillaries from the interstitial space. Lymph then moves through lymphatic vessels to lymph nodes. Lymphatic vessels merge to create the lymphatic ducts which drain into the venous system. The thoracic duct delivers an estimated 1.38 mL/kg/hour of lymph to the venous system.

Embryology

During the sixth week of development of the human embryo, the early lymphatic system is composed of blunt buds near the base of the neck. Six lymph sacs form by the end of the embryonic period. These lymph sacs are the cisterna chyli, two jugular lymph sacs, two iliac lymph sacs, and a retroperitoneal lymph sac. Lymphatic vessels develop to connect these sacs and form the early lymphatic system. The thoracic duct develops from lymphatic trunks on either side of the aorta that anastomoses to form a channel from the jugular lymph sacs to the cisterna chyli. Trunks continue to anastomose and enlarge, forming embryonic right and left thoracic ducts. The adult thoracic duct is derived from both of these embryonic thoracic ducts. The right primitive thoracic duct eventually develops into the lower adult thoracic duct whereas the left primitive thoracic duct develops into the upper portion of the adult thoracic duct.

Physiologic Variants

The typical anatomy described above is present in only about 50% of individuals. There are many anatomic variations of the thoracic duct. A cisterna chyli is present in about half of individuals. When embryologic lymphatic trunks converge above the T12 vertebral level, the cisterna chyli is generally absent, but there may be dilation of lower lumbar trunks.

In the embryo, portions of a bilateral system of lymphatic trunks anastomose and develop while portions atrophy. Failure of the typical pattern leads to anatomic variations of the thoracic duct. A common variation is a bifid lower aspect of the trunk caused by embryonic right and left lymphatic trunks failing to fuse. Another variation is the lower thoracic duct being replaced by a plexus of lymphatic vessels and forming a single duct higher in the mediastinum. Two rare variations include complete bilateral thoracic ducts and termination of the duct into the azygos system.

Variations in termination also exist. In the majority of cases, the duct terminates on the left side. In 2% to 3% of cases, the duct empties on the right, and bilaterally in up to 1.5% of cases. In over 95% of cases, the thoracic duct terminates in the internal jugular vein, the subclavian vein, or the angle between the two. The remaining 5% include termination in the external jugular vein, vertebral vein, brachiocephalic vein, suprascapular vein, and transverse cervical vein. The thoracic duct can also terminate as a single vessel (up to 87.5%), bilateral ducts (up to 25%), or several terminal branches (up to 7%).

The thoracic duct displays physiologic adaptation to certain disease processes by increasing in diameter. These disease states include congestive heart failure, cirrhosis or the liver, portal hypertension, and malignancy.[4][5]

Surgical Considerations

Procedures within the thoracic cavity risk injuring or obstructing the duct which could result in chylothorax. The long course of the thoracic duct predisposes it to traumatic injury during thoracic, cardiac, or head and neck surgeries. Frequent physiologic variants also make avoiding the duct during surgery somewhat difficult. The thoracic duct is particularly vulnerable to trauma during esophageal surgery. Certain noninvasive procedures also risk iatrogenic duct injury such as a central line placement. Occlusion of the thoracic duct also results in chylous extravasation although this is much less common compared to injury.

Dietary changes, including decreasing intake of fat and increasing intake of medium chain triglycerides, can be used as an initial conservative approach to treating low chyle output of less than 1 L/day. Bowel rest and lipid-free total parenteral nutrition is another option. If chyle output is over 1 L/day, thoracic duct ligation or percutaneous embolization must be considered.

Clinical Significance

As a central structure to lymphatic flow and movement, thoracic duct dysfunction and resulting chyle accumulation is concerning for malignancy. Lymph from organs can drain directly into the thoracic duct without passing a lymph node. This anodal route has been observed for the diaphragm, esophagus, and parts of the lungs. The drainage pattern may play a role in the prognosis of cancers of these organs. This pattern may also explain the presence of distant metastases without lymph node involvement. 

The Virchow node, a lymph node located at the base of the neck where the duct generally terminates, can be enlarged in cases of malignancy and may obstruct drainage of the thoracic duct. When there is an obstruction of the thoracic duct, lymph collects in the pleural cavity. This formation of chylothorax can be the first sign of malignancy.

Review Questions

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Figure

Thoracic Canal, Esophagus, Posterior intercostal lymph glands, cisterna chyli Henry Vandyke Carter, Public Domain, via Wikimedia Commons

References

1.Rizvi S, Wehrle CJ, Law MA. StatPearls [Internet]. StatPearls Publishing; Treasure Island (FL): Jul 24, 2023. Anatomy, Thorax, Mediastinum Superior and Great Vessels. [PMC free article: PMC519576] [PubMed: 30137860]2.Chaudhry SR, Bordoni B. StatPearls [Internet]. StatPearls Publishing; Treasure Island (FL): Jul 24, 2023. Anatomy, Thorax, Esophagus. [PubMed: 29494119]3.Ndiaye A, Di-Marino V, Ba PS, Ndiaye A, Gaye M, Nazarian S. Anatomical variations in lymphatic drainage of the right lung: applications in lung cancer surgery. Surg Radiol Anat. 2016 Dec;38(10):1143-1151. [PubMed: 27151087]4.Sarkaria IS, Finley DJ, Bains MS, Adusumilli PS, Rizk NP, Huang J, Downey RJ, Rusch VW, Jones DR. Chylothorax and Recurrent Laryngeal Nerve Injury Associated With Robotic Video-Assisted Mediastinal Lymph Node Dissection. Innovations (Phila). 2015 May-Jun;10(3):170-3. [PMC free article: PMC4981881] [PubMed: 26165562]5.Bryant AS, Minnich DJ, Wei B, Cerfolio RJ. The incidence and management of postoperative chylothorax after pulmonary resection and thoracic mediastinal lymph node dissection. Ann Thorac Surg. 2014 Jul;98(1):232-5; discussion 235-7. [PubMed: 24811982]

Disclosure: Maira Ilahi declares no relevant financial relationships with ineligible companies.

Disclosure: Kayla St Lucia declares no relevant financial relationships with ineligible companies.

Disclosure: Tahir Ilahi declares no relevant financial relationships with ineligible companies.

Copyright © 2025, StatPearls Publishing LLC.

This book is distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0) ( http://creativecommons.org/licenses/by-nc-nd/4.0/ ), which permits others to distribute the work, provided that the article is not altered or used commercially. You are not required to obtain permission to distribute this article, provided that you credit the author and journal.

Bookshelf ID: NBK513227PMID: 30020599 Share

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• Cite this PageIlahi M, St Lucia K, Ilahi TB. Anatomy, Thorax, Thoracic Duct. [Updated 2023 Jul 24]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2025 Jan-.

In this Page

• Introduction
• Structure and Function
• Embryology
• Physiologic Variants
• Surgical Considerations
• Clinical Significance
• Review Questions
• References

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