Vas deferens explained

Vas deferens
Latin:vas deferens (plural: vasa deferentia),
ductus deferens (plural: ductus deferentes)
Precursor:Mesonephric ducts
Artery:Superior vesical artery, artery of the ductus deferens
Lymph:External iliac lymph nodes, internal iliac lymph nodes

The vas deferens (: vasa deferentia), ductus deferens (: ductūs deferentes), or sperm duct is part of the male reproductive system of many vertebrates. The vasa deferentia are paired sex organs that transport sperm from the epididymides to the ejaculatory ducts in anticipation of ejaculation. The vas deferens is a partially coiled tube which exits the abdominal cavity through the inguinal canal.

Etymology

Vas deferens is Latin, meaning "carrying-away vessel" while ductus deferens, also Latin, means "carrying-away duct".[1]

Structure

The human vas deferens measures 30–35 cm in length, and 2–3 mm in diameter.[2] It is continuous proximally with the tail of the epididymis, and exhibits a tortuous, convoluted initial/proximal section (which measures 2–3 cm in length). Distally, it forms a dilated and tortuous segment termed the ampulla of vas deferens before ending by uniting with a duct of the seminal vesicle to form the ejaculatory duct.[3] Together they form part of the spermatic cord.[4]

Blood supply

The vasa deferentia are supplied with blood by accompanying arteries, the (arteries of vas deferens). These arteries normally arises from the superior (sometimes inferior) vesical arteries, a branch of the internal iliac arteries.

Innervation

The vas deferens receives innervation from an autonomic plexus of post-ganglionic sympathetic fibres derived from the inferior hypogastric plexus.

It is innervated by a variety of nerve endings, although of the efferent nerves the sympathetic innveration dominates. Adrenergic junctions (those which release noradrenaline) are found in the smooth muscle layers.[5] Cholinergic synapses and vasoactive intestinal peptide synapses are found in the connective tissue of the mucosa.[6]

Anatomical relations

Within the spermatic cord, the vas deferens is situated posterior (and parallel to) the vessels of the spermatic cord.

The vas deferens traverses the inguinal canal to reach the pelvic cavity; it enters the pelvic cavity lateral to the inferior epigastric vessels. At the deep inguinal ring, the vas deferens diverges from the testicular vessels to pass medially to reach the base of the prostate posteriorly.

Histology

The vas deferens consists of an external adventitial sheath containing blood vessels and nerves, a muscular middle layer composed of three layers of smooth muscle (with a circular muscle layer interposed between two longitudinal muscle layers), and an internal mucosal lining consisting of pseudostratified columnar epithelium (which bears the non-motile stereocilia).[7]

The vas deferens has the greatest muscle-to-lumen ratio of any hollow organ.

Function

During ejaculation, the smooth muscle in the walls of the vas deferens contracts reflexively, thus propelling the sperm forward. This is also known as peristalsis.[8] The sperm are transferred from each vas deferens into the urethra, partially mixing with secretions from the male accessory sex glands such as the seminal vesicles, prostate gland and the bulbourethral glands, which form the bulk of semen.[9]

Clinical significance

Contraception

A vasectomy is a method of contraception in which the vasa deferentia are permanently cut. In some cases, it can be reversed. A modern variation, vas-occlusive contraception, involves injecting an obstructive material into the ductus to block the flow of sperm.[10]

Disease

The vas deferens may be obstructed, or it may be completely absent in a condition known as congenital absence of the vas deferens (CAVD, a potential feature of cystic fibrosis), causing male infertility. Acquired obstructions can occur due to infections. To treat these causes of male infertility, sperm can be harvested by testicular sperm extraction (TESE) or microsurgical epididymal sperm aspiration (MESA).[11]

Uses in pharmacology and physiology

The vas deferens has a dense sympathetic innervation,[12] making it a useful system for studying sympathetic nerve function and for studying drugs that modify neurotransmission.[13]

It has been used:

Other animals

Most vertebrates have some form of duct to transfer the sperm from the testes to the urethra. In cartilaginous fish and amphibians, sperm are carried through the archinephric duct, which also partially helps to transport urine from the kidneys. In teleosts, there is a distinct sperm duct, separate from the ureters, and often called the vas deferens, although probably not truly homologous with that in humans.[18] The vas deferens loops over the ureter in placental mammals, but not in marsupial mammals.[19] [20]

In cartilaginous fishes, the part of the archinephric duct closest to the testis is coiled up to form an epididymis. Below this are a number of small glands secreting components of the seminal fluid. The final portion of the duct also receives ducts from the kidneys in most species.[18]

In amniotes, however, the archinephric duct has become a true vas deferens, and is used only for conducting sperm, never urine. As in cartilaginous fish, the upper part of the duct forms the epididymis. In many species, the vas deferens ends in a small sac for storing sperm.[18]

The only vertebrates to lack any structure resembling a vas deferens are the primitive jawless fishes, which release sperm directly into the body cavity, and then into the surrounding water through a simple opening in the body wall.[18]

See also

External links

Notes and References

  1. Pozor . Malgorzata . Seminal Vesiculitis . Comparative Veterinary Anatomy . 2022 . 825–833 . 10.1016/B978-0-323-91015-6.00067-4. 9780323910156 . 245049526 .
  2. Book: Gray's anatomy : the anatomical basis of clinical practice . 2021 . Susan Standring . 978-0-7020-7707-4 . Forty-second . [New York] . 1201341621.
  3. Gonzales . GF . Function of seminal vesicles and their role on male fertility. . Asian Journal of Andrology . December 2001 . 3 . 4 . 251–8 . 11753468.
  4. Book: Liu, Longfei. Scrotoscopic Surgery. Academic Press. 2019. 978-0-12-815008-5. 1–8. Chapter 1 - Applied Anatomy of the Scrotum and its Contents. 10.1016/B978-0-12-815008-5.00001-7. 81721236 .
  5. Mirabella. Nicola. Squillacioti. Caterina. Varricchio. Ettore. Genovese. Angelo. Paino. Giuseppe. 2003-05-01. Innervation of vas deferens and accessory male genital glands in the water buffalo (Bubalus bubalis): Neurochemical characteristics and relationships to the reproductive activity. Theriogenology. en. 59. 9. 1999–2016. 10.1016/S0093-691X(02)01260-8. 12600736. 0093-691X. Elsevier.
  6. Alm . Per . 1982-07-01 . On the autonomic innervation of the human vas deferens . Brain Research Bulletin . en . . 9 . 1–6 . 673–677 . 10.1016/0361-9230(82)90172-1 . 0361-9230 . 6184134 . 4761228.
  7. Höfer . D. . Drenckhahn . D. . May 1996 . Cytoskeletal differences between stereocilia of the human sperm passageway and microvilli/stereocilia in other locations . The Anatomical Record . 245 . 1 . 57–64 . 10.1002/(SICI)1097-0185(199605)245:1<57::AID-AR10>3.0.CO;2-8 . 0003-276X . 8731041. 7457415 . free .
  8. 10.1113/jphysiol.2008.160440. 18787034. 2652144. Smooth muscle cell calcium activation mechanisms. The Journal of Physiology. 586. 21. 5047–5061. 2008. Berridge. Michael J..
  9. Book: Mann, T . 1954 . The Biochemistry of Semen . London: Methuen & Co; New York: John Wiley & Sons . November 9, 2013.
  10. 10.1002/14651858.CD003991.pub4 . 24683020 . Vasectomy occlusion techniques for male sterilization . Cochrane Database of Systematic Reviews . 3 . CD003991 . 2014 . Cook . Lynley A . Van Vliet . Huib AAM . Lopez . Laureen M . Pun . Asha . Gallo . Maria F . 2014 . 7173716 .
  11. Schroeder-Printzen . I. . Microsurgical epididymal sperm aspiration: aspirate analysis and straws available after cryopreservation in patients with non-reconstructable obstructive azoospermia . Human Reproduction . 1 December 2000 . 15 . 12 . 2531–2535 . 10.1093/humrep/15.12.2531. 11098022 . free .
  12. Sjöstrand. N.O.. The adrenergic innervation of the vas deferens and the accessory male genital organs. Acta Physiologica Scandinavica. 1965. 257. S1–82.
  13. 20074819. 2010. Burnstock. G. Vas deferens--a model used to establish sympathetic cotransmission. Trends in Pharmacological Sciences. 31. 3. 131–9. Verkhratsky. A. 10.1016/j.tips.2009.12.002.
  14. 1207728. 1975. Hughes. J. Identification of two related pentapeptides from the brain with potent opiate agonist activity. Nature. 258. 5536. 577–80. Smith. T. W.. Kosterlitz. H. W.. Fothergill. L. A.. Morgan. B. A.. Morris. H. R. . 10.1038/258577a0. 1975Natur.258..577H. 95411.
  15. 2882426. 1987. Brock. J. A.. Relationship between the nerve action potential and transmitter release from sympathetic postganglionic nerve terminals. Nature. 326. 6113. 605–7. Cunnane. T. C.. 10.1038/326605a0. 1987Natur.326..605B. 4303337.
  16. 9279805. 1997. Brain. K. L.. Calcium in sympathetic varicosities of mouse vas deferens during facilitation, augmentation and autoinhibition. The Journal of Physiology. 502. 521–36. Bennett. M. R.. 1159525 . 3 . 10.1111/j.1469-7793.1997.521bj.x.
  17. 12068045. 2002. Brain. K. L.. Intermittent ATP release from nerve terminals elicits focal smooth muscle Ca2+ transients in mouse vas deferens. The Journal of Physiology. 541. Pt 3. 849–62. Jackson. V. M.. Trout. S. J.. Cunnane. T. C.. 2290369 . 10.1113/jphysiol.2002.019612.
  18. Book: Romer, Alfred Sherwood. Parsons, Thomas S.. 1977 . The Vertebrate Body . Holt-Saunders International . Philadelphia, PA. 393–395. 978-0-03-910284-5.
  19. Book: C. Hugh Tyndale-Biscoe. Life of Marsupials. 2005. Csiro Publishing. 978-0-643-06257-3.
  20. Book: Patricia J. Armati. Chris R. Dickman. Ian D. Hume. Marsupials. 17 August 2006. Cambridge University Press. 978-1-139-45742-2.

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