Peritoneal cavity explained

Peritoneal cavity
Latin:cavitas peritonealis,
saccus serosus peritonei
Precursor:Intraembryonic coelom

The peritoneal cavity is a potential space between the parietal peritoneum (the serous membrane that surrounds the abdominal wall) and visceral peritoneum (which surrounds the internal organs).[1] The parietal and visceral peritonea are layers of the peritoneum named depending on their function/location. It is one of the spaces derived from the coelomic cavity of the embryo, the others being the pleural cavities around the lungs and the pericardial cavity around the heart.

It is the largest serosal sac, and the largest fluid-filled cavity,[2] in the body and secretes approximately 50 ml of fluid per day. This fluid acts as a lubricant and has anti-inflammatory properties.

The peritoneal cavity is divided into two compartments – one above, and one below the transverse colon.[3]

Compartments

The peritoneal cavity is divided by the transverse colon (and its mesocolon) into an upper supracolic compartment, and a lower infracolic compartment. The liver, spleen, stomach, and lesser omentum are contained within the supracolic compartment. The small intestine surrounded by the ascending, transverse, and descending colon, and the paracolic gutters are contained within the infracolic compartment.[3]

Clinical significance

The peritoneal cavity is a common injection site, used in intraperitoneal injection.An increase in the capillary pressure in the abdominal viscera can cause fluid to leave the interstitial space and enter the peritoneal cavity, a condition called ascites.

In cases where cerebrospinal fluid builds up, such as in hydrocephalus, the fluid is commonly diverted to the peritoneal cavity by use of a shunt placed by surgery.[4]

Body fluid sampling from the peritoneal cavity is called peritoneocentesis.

The peritoneal cavity is involved in peritoneal dialysis.

See also

Notes and References

  1. Pannu . HK . Oliphant . M . The subperitoneal space and peritoneal cavity: basic concepts . Abdominal Imaging . October 2015 . 40 . 7 . 2710–22 . 10.1007/s00261-015-0429-5 . 26006061. 4584112 .
  2. Heimbürger . Olof . 29 - Peritoneal Physiology . Chronic Kidney Disease, Dialysis, and Transplantation (Fourth Edition) . 1 January 2019 . 450–469.e6 . 10.1016/b978-0-323-52978-5.00029-x . Elsevier . 9780323529785 . en.
  3. Sharma . M . Madambath . JG . Somani . P . Pathak . A . Rameshbabu . CS . Bansal . R . Ramasamy . K . Patil . A . Endoscopic ultrasound of peritoneal spaces. . Endoscopic Ultrasound . March 2017 . 6 . 2 . 90–102 . 10.4103/2303-9027.204816 . 28440234. 5418973 . free .
  4. Adzick. Scott . Thom, Spong . Brock, Burrows. A Randomized Trial of Prenatal versus Postnatal Repair of Myelomeningocele. The New England Journal of Medicine. 17 March 2011. 364. 11. 993–1004. 10.1056/nejmoa1014379. etal. 21306277. 3770179.