Appendix (anatomy)

Appendix

Drawing of colon with variability of appendix as seen from front

Arteries of cecum and appendix (appendix labeled as vermiform process at lower right)
Details
Precursor Midgut
System Digestive system
Artery Appendicular artery
Vein Appendicular vein
Identifiers
Latin Appendix vermiformis
MeSH A03.556.124.526.209.290
Dorlands
/Elsevier
Vermiform appendix
TA A05.7.02.007
FMA 14542

Anatomical terminology

Ileocecal junction (Appendix appear in blue color)

The appendix (or vermiform appendix; also cecal [or caecal] appendix; vermix; or vermiform process) is a blind-ended tube connected to the cecum, from which it develops in the embryo. The cecum is a pouchlike structure of the colon, located at the junction of the small and the large intestines.

The term "vermiform" comes from Latin and means "worm-shaped".

Structure

The human appendix averages 9 cm in length but can range from 2 to 20 cm. The diameter of the appendix is usually between 7 and 8 mm. The longest appendix ever removed was 26 cm long. It was removed from a patient in Zagreb, Croatia.[1] The appendix is usually located in the lower right quadrant of the abdomen, near the right hip bone. The base of the appendix is located 2 cm beneath the ileocecal valve that separates the large intestine from the small intestine. Its position within the abdomen corresponds to a point on the surface known as McBurney's point.

The appendix is connected to the mesentery in the lower region of the ileum, by a short region of the mesocolon known as the mesoappendix.[2]

Variation

Some identical twins—known as mirror image twins—can have a mirror-imaged anatomy, a congenital condition with the appendix located in the lower left quadrant of the abdomen.[3][4][5] Intestinal malrotation may also cause displacement of the appendix to the left side.

While the base of the appendix is at a fairly constant location—2 cm below the ileocecal valve, the tip of the appendix can be variably located—in the pelvis, outside the peritoneum or behind the cecum.[6] The prevalence of the different positions varies amongst populations with the retrocecal position being most common in Ghana and Sudan, with 67.3% and 58.3% occurrence respectively, in comparison to Iran and Bosnia where the pelvic position is most common, with 55.8% and 57.7% occurrence respectively.[7][8][9][10]

In very rare cases (laparotomies for suspected appendicitis have given a frequency of 1 in 100,000), the appendix may not be present at all.[11]

Sometimes there is a semi-circular fold of mucous membrane at the opening of the appendix. This valve of the vermiform appendix is also called Gerlach's valve.[2]

Functions

Maintaining gut flora

A possible function of the human appendix is a "safe house" for beneficial bacteria in the recovery from diarrhea.

Although it has been long accepted that the immune tissue surrounding the appendix and elsewhere in the gut—called gut associated lymphoid tissue—carries out a number of important functions, explanations were lacking for the distinctive shape of the appendix and its apparent lack of specific importance and function as judged by an absence of side effects following its removal.[12] Therefore, the notion that the appendix is only vestigial became widely held.

William Parker, Randy Bollinger, and colleagues at Duke University proposed in 2007 that the appendix serves as a haven for useful bacteria when illness flushes those bacteria from the rest of the intestines.[13][14] This proposal is based on an understanding that emerged by the early 2000s of how the immune system supports the growth of beneficial intestinal bacteria,[15][16] in combination with many well-known features of the appendix, including its architecture, its location just below the normal one-way flow of food and germs in the large intestine, and its association with copious amounts of immune tissue. Research performed at Winthrop–University Hospital showed that individuals without an appendix were four times more likely to have a recurrence of Clostridium difficile colitis.[17] The appendix, therefore, may act as a safe house for good bacteria.[13] This reservoir of bacteria could then serve to repopulate the gut flora in the digestive system following a bout of dysentery or cholera, or boost it following a milder gastrointestinal illness.[14]

Immune and lymphatic system

The appendix has been identified as an important component of mammalian mucosal immune function, particularly B cell mediated immune responses and extrathymically derived T cells. This structure helps in the proper movement and removal of waste matter in the digestive system, contains lymphatic vessels that regulate pathogens, and lastly, might even produce early defences that prevent deadly diseases. Additionally, it is thought that this may provide more immune defences from invading pathogens and getting the lymphatic system's B and T cells to fight the viruses and bacteria that infect that portion of the bowel and training them, so that immune responses are targeted and more able to reliably and less dangerously fight off pathogens.[18] In addition there are different immune cells called innate lymphoid cells that function in the gut, to help the appendix maintain digestive health.[19][20]

Vestigiality

The human appendix had been proposed to be a vestigial structure, a structure that has lost all or most of its original function, or that has evolved to take on a new function. The suggestion was that it is the shrunken remnant of the cecum thought to have been present in a remote ancestor of humans. This notion is still widely held. A 2013 study, however, refutes the idea of an inverse relationship between cecum size and appendix size and presence.[21] Ceca, which occur in the digestive tracts of many herbivores (e.g. ox, horse), house mutualistic bacteria and ingested small stones that help animals digest the cellulose molecules found in plants.[22]

It is widely present in euarchontoglires (a superorder of mammals that includes rodents and primates) and has also evolved independently in the diprotodont marsupials, monotremes, and is highly diverse in size and shape.[21][23]

A possible scenario for the progression from a fully functional cecum to the current human appendix was put forth by Charles Darwin. He suggested that the appendix was used for digesting leaves as primates. It may be a vestigial organ of ancient humans that has degraded to nearly nothing of its original purpose, or evolved to take on a new purpose over the course of evolution. The very long cecum of some herbivorous animals, such as found in the horse or the koala, appears to support this theory. The koala's cecum enables it to host bacteria that specifically help to break down cellulose. Human ancestors may have also relied upon this system when they lived on a diet rich in foliage. As people began to eat more easily digested foods, they may have become less reliant on cellulose-rich plants for energy. As the cecum became less necessary for digestion, mutations that were previously deleterious (and would have hindered evolutionary progress) were no longer important, so the mutations survived. It is suggested that these alleles became more frequent and the cecum continued to shrink. After millions of years, the once-necessary cecum degraded to be the appendix of modern humans.[24]

Clinical significance

An appendiceal carcinoid tumor

The most common diseases of the appendix (in humans) are appendicitis and carcinoid tumors (appendiceal carcinoid).[25] Appendix cancer accounts for about 1 in 200 of all gastrointestinal malignancies. In rare cases, adenomas are also present.[26]

Appendicitis

Appendicitis is a condition characterized by inflammation of the appendix. Pain often begins in the center of the abdomen, corresponding to the appendix's development as part of the embryonic midgut. This pain is typically a dull, poorly localized, visceral pain.[27]

As the inflammation progresses, the pain begins to localize more clearly to the right lower quadrant, as the peritoneum becomes inflamed. This peritoneal inflammation, or peritonitis, results in rebound tenderness (pain upon removal of pressure rather than application of pressure). In particular, it presents at McBurney's point, 1/3 of the way along a line drawn from the anterior superior iliac spine to the umbilicus. Typically, point (skin) pain is not present until the parietal peritoneum is inflamed, as well. Fever and an immune system response are also characteristic of appendicitis.[27]

Appendicitis usually requires the removal of the inflamed appendix, in an appendectomy either by laparotomy or laparoscopy. Untreated, the appendix may rupture, leading to peritonitis, followed by shock, and, if still untreated, death.[27]

Surgery

The surgical removal of the appendix is called an appendectomy. This removal is normally performed as an emergency procedure when the patient is suffering from acute appendicitis. In the absence of surgical facilities, intravenous antibiotics are used to delay or avoid the onset of sepsis. In some cases, the appendicitis resolves completely; more often, an inflammatory mass forms around the appendix. This is a relative contraindication to surgery.

The appendix is also used for the construction of an efferent urinary conduit, in an operation known as the Mitrofanoff procedure,[28] in people with a neurogenic bladder.

The appendix is also used as a means to access the colon in children with paralysed bowels or major rectal sphincter problems. The appendix is brought out to the skin surface and the child/parent can then attach a catheter and easily wash out the colon (via normal defaecation) using an appropriate solution.[29]

History

Dr. Heather F. Smith of Midwestern University and colleagues explained:

Recently ... improved understanding of gut immunity has merged with current thinking in biological and medical science, pointing to an apparent function of the mammalian cecal appendix as a safe-house for symbiotic gut microbes, preserving the flora during times of gastrointestinal infection in societies without modern medicine. This function is potentially a selective force for the evolution and maintenance of the appendix. Three morphotypes of cecal-appendices can be described among mammals based primarily on the shape of the cecum: a distinct appendix branching from a rounded or sac-like cecum (as in many primate species), an appendix located at the apex of a long and voluminous cecum (as in the rabbit, greater glider and Cape dune mole rat), and an appendix in the absence of a pronounced cecum (as in the wombat). In addition, long narrow appendix-like structures are found in mammals that either lack an apparent cecum (as in monotremes) or lack a distinct junction between the cecum and appendix-like structure (as in the koala). A cecal appendix has evolved independently at least twice, and apparently represents yet another example of convergence in morphology between Australian marsupials and placentals in the rest of the world. Although the appendix has apparently been lost by numerous species, it has also been maintained for more than 80 million years in at least one clade.[23]

In a more recent paper, the appendix was found to have evolved at least 32 times (and perhaps as many as 38 times) and to have been lost no more than six times.[21] This suggests that the cecal appendix has a selective advantage in many situations and argues strongly against its vestigial nature. This complex evolutionary history of the appendix, along with a great heterogeneity in its evolutionary rate in various taxa, suggests that it is a recurrent trait.[30]

Such a function may be useful in a culture lacking modern sanitation and healthcare practice, where diarrhea may be prevalent. Current epidemiological data on the cause of death in developed countries collected by the World Health Organization in 2001 show that acute diarrhea is now the fourth leading cause of disease-related death in developing countries (data summarized by The Bill and Melinda Gates Foundation). Two of the other leading causes of death are expected to have exerted limited or no selection pressure.[31][32]

Additional images

See also

References

  1. "Largest appendix removed". Guinness World Records. Retrieved 22 May 2017.
  2. 1 2 Golalipour, M.J.; Arya, B.; Jahanshahi, M.; Azarhoosh, R. (2003). "Anatomical Variations Of Vermiform Appendix In South-East Caspian Sea (Gorgan-IRAN)" (PDF). J. Anat. Soc. India. Retrieved 1 October 2014.
  3. "Unusual Types of Twins". Multiples of America. Retrieved 30 April 2014.
  4. Gedda L, Sciacca A, Brenci G, et al. (1984). "Situs viscerum specularis in monozygotic twins". Acta Genet Med Gemellol (Roma). 33 (1): 81–5. PMID 6540028.
  5. O Ngim; L Adams; A Achaka; O Busari; O Rahaman; I Ukpabio; D Eduwem. (2013). "Left-Sided Acute Appendicitis With Situs Inversus Totalis In A Nigerian Male – A Case Report And Review Of Literature.". The Internet Journal of Surgery. 30 (4).
  6. Paterson-Brown, S. (2007). "15. The acute abdomen and intestinal obstruction". In Parks, Rowan W.; Garden, O. James; Carter, David John; Bradbury, Andrew W.; Forsythe, John L. R. Principles and practice of surgery (5th ed.). Edinburgh: Churchill Livingstone. ISBN 0-443-10157-4.
  7. Clegg-Lamptey JN, Armah H, Naaeder SB, Adu-Aryee NA (2006). "Position and susceptibility to inflammation of vermiform appendix in Accra, Ghana". East Afr Med J. 83 (12): 670–3. PMID 17685212.
  8. Bakheit MA, Warille AA (1999). "Anomalies of the vermiform appendix and prevalence of acute appendicitis in Khartoum". East Afr Med J. 76 (6): 338–40. PMID 10750522.
  9. Ghorbani A, Forouzesh M, Kazemifar AM (2014). "Variation in Anatomical Position of Vermiform Appendix among Iranian Population: An Old Issue Which Has Not Lost Its Importance". Anat Res Int. 2014: 313575. PMC 4176911Freely accessible. PMID 25295193. doi:10.1155/2014/313575.
  10. Denjalić A, Delić J, Delić-Custendil S, Muminagić S (2009). "[Variations in position and place of formation of appendix vermiformis found in the course of open appendectomy]". Med Arh (in Bosnian). 63 (2): 100–1. PMID 19537667.
  11. Zetina-Mejía CA, Alvarez-Cosío JE, Quillo-Olvera J (2009). "Congenital absence of the cecal appendix. Case report". Cir Cir. 77 (5): 407–10. PMID 19944032.
  12. Kumar, Vinay; Robbins, Stanley L.; Cotran, Ramzi S. (1989). Robbins' pathologic basis of disease (4th ed.). Philadelphia: Saunders. pp. 902–3. ISBN 0-7216-2302-6.
  13. 1 2 Associated Press. "Scientists may have found appendix's purpose". MSNBC, 5 October 2007. Accessed 17 March 2009.
  14. 1 2 Bollinger, R.R.; Barbas, A.S.; Bush, E.L.; Lin, S.S.; Parker, W. (21 December 2007). "Biofilms in the large bowel suggest an apparent function of the human vermiform appendix". Journal of Theoretical Biology. 249 (4): 826–831. ISSN 0022-5193. PMID 17936308. doi:10.1016/j.jtbi.2007.08.032.
  15. Sonnenburg J.L.; Angenent L.T.; Gordon J.I. (June 2004). "Getting a grip on things: how do communities of bacterial symbionts become established in our intestine?". Nat. Immunol. 5 (6): 569–73. PMID 15164016. doi:10.1038/ni1079.
  16. Everett M.L.; Palestrant D.; Miller S.E.; Bollinger R.R.; Parker W. (2004). "Immune exclusion and immune inclusion: a new model of host-bacterial interactions in the gut". Clinical and Applied Immunology Reviews. 5 (5): 321–32. doi:10.1016/j.cair.2004.03.001.
  17. Dunn, Rob. "Your Appendix Could Save Your Life". Retrieved 22 December 2016.
  18. Zahid, Aliya (2004-04-01). "The vermiform appendix: not a useless organ". Journal of the College of Physicians and Surgeons--Pakistan: JCPSP. 14 (4): 256–258. ISSN 1022-386X. PMID 15228837.
  19. Rankin, Lucille C.; Girard-Madoux, Mathilde J. H.; Seillet, Cyril; Mielke, Lisa A.; Kerdiles, Yann; Fenis, Aurore; Wieduwild, Elisabeth; Putoczki, Tracy; Mondot, Stanislas (2016-02-01). "Complementarity and redundancy of IL-22-producing innate lymphoid cells". Nature Immunology. 17 (2): 179–186. ISSN 1529-2908. PMC 4720992Freely accessible. PMID 26595889. doi:10.1038/ni.3332.
  20. Research, The Walter and Eliza Hall Institute of Medical (2016-08-19). "Lucille Rankin". Walter and Eliza Hall Institute of Medical Research. Retrieved 2016-11-02.
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  22. "Animal Structure & Function". Sci.waikato.ac.nz. Retrieved 2011-10-03.
  23. 1 2 Smith H. F.; Fisher R. E.; Everett M. L.; Thomas A. D.; Bollinger, R. R.; Parker W. (2009). "Comparative anatomy and phylogenetic distribution of the mammalian cecal appendix". Journal of Evolutionary Biology. 22 (10): 1984–1999. PMID 19678866. doi:10.1111/j.1420-9101.2009.01809.x.
  24. Darwin, Charles (1871) "Jim's Jesus". The Descent of Man, and Selection in Relation to Sex. John Murray: London.
  25. "Appendix disorders Symptoms, Diagnosis, Treatments and Causes". Wrongdiagnosis.com. Retrieved 2010-05-19.
  26. "Statistics about Appendix disorder". Wrongdiagnosis.com. Retrieved 2010-05-19.
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  28. Mingin G.C.; Baskin L.S. (2003). "Surgical management of the neurogenic bladder and bowel". Int Braz J Urol. 29 (1): 53–61. PMID 15745470. doi:10.1590/S1677-55382003000100012.
  29. "Wellington Children's Hospital : Caring for an ACE or Chait Tube : Healthpoint". Retrieved 22 December 2016.
  30. Laurin M.; Everett, M.L.; Parker W. (2011). "The cecal appendix: one more immune component with a function disturbed by post-industrial culture". Anatomical Record. 294 (4): 567–579. doi:10.1002/ar.21357.
  31. Needs Citation
  32. Evolution of the Appendix: A Biological 'Remenant' No More; By Duke Medicine News and Communications; Published: Aug. 20, 2009 Updated: Aug. 21, 2009, http://www.dukehealth.org/health_library/news/evolution_of_the_appendix_a_biological_remnant_no_more

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