Difference between revisions of "Peritoneal Cavity - Anatomy & Physiology"
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[[Category:Peritoneal Cavity]] | [[Category:Peritoneal Cavity]] | ||
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Latest revision as of 17:51, 4 January 2023
Introduction
The peritoneum is the serous membrane that lines the abdominal cavity. It lies directly beneath the abdominal musculature (rectus abdominis and transverse abdominis). It is a type of loose connective tissue and is covered by mesothelium. Extensions of the peritoneum form the mesenteries, omenta and ligaments that support the abdominal contents. The peritoneum produces fluid to lubricate abdominal viscera. The peritoneum also enhances immune responses and walls off infection in the abdomen to prevent peritonitis.
Development
In the early embryo, the primitive gut tube is suspended by the dorsal and ventral mesogastria. The mesogastria divide the embryo into two cavities, called the left and right coelomic cavities. The ventral mesogastrium atrophies caudal to the pylorus of the stomach and cranial to the rectum. This gives the entire small intestine and most of the large intestine large scope for expansion and rotation. It also allows the left and right coelomic cavities to coalesce forming one cavity; the peritoneal cavity. Peritoneal structures develop from the dorsal and ventral mesogastria.
Structure & Histology
Lining the abdomen is a thin layer of loose connective tissue covered by a single layer of mesothelial cells. The layer of mesothelial cells is referred to as the peritoneum. Collectively, the connective tissue and peritoneum are referred to as the serosa. Mesothelial cells are simple squamous and of mesodermal origin, they have microvilli on their surface and are very fragile but regenerate very quickly. A small amount of fibroelastic tissue is present within the connective tissue layer to provide support. There are two layers of peritoneum lining the abdomen. Lining the abdominal wall is the parietal layer, lining the abdominal viscera is the visceral layer. The small space within these two layers is called the peritoneal cavity.
NB: In reality there are no viscera located in the peritoneal cavity. However the cavity created by the serosa is also confusingly referred to as the peritoneal cavity, and contains most abdominal contents.
A small evagination extends into the thorax along the right side of the oesophagus. The peritoneum also evaginates to extend into the inguinal canals. Fat is often stored beneath the peritoneum. Many species have lymphoid tissue aggregates and fixed phagocytes in the omentum that are not covered by mesothelial cells. The peritoneum is smooth and clear in the healthy animal.
NB: Post mortem change and autolysis result in increased volumes of red-brown fluid in the abdomen, not associated with other pathology, nor roughening of surfaces of organs or peritoneum.
The peritoneal cavity is complete in the male, but a potential communication with the exterior exists in the female at the opening of the oviduct.
Peritoneal Fluid
A small quantity of peritoneal fluid is produced by mesothelial cells. It fills the potential space formed by the two layers of peritoneum and allows the two layers to slide over each other freely. Peritoneal fluid is also produced as a transudate which coats the serosal surface of viscera to facilitate frictionless movement e.g. during peristalsis. It is in equilibrium with plasma but doesn't contain high molecular weight molecules like fibrinogen. The fluid is constantly being produced and resorbed through the large surface area of the peritoneum, for this reason drugs are sometimes administered by intraperitoneal injection. Bacterial toxins are also absorbed readily and can cause inflammation of the peritoneum; peritonitis.
Function
Peritoneum secretes a small volume of clear fluid for lubrication. It provides a route for entry of blood and nerve and lymphatics. There is high fibrinolytic activity to protect against the formation of adhesions. Inflammed portions of the peritoneum adhere to each other and may become organised and permanent. This may help to wall of infections and bring leuckocytes to the site of infection. This trait is taken advantage of in surgery when serosal surfaces are often turned in when closing an incision.
Types of Peritoneum
The peritoneum doubles up to form the following suspensory structures: Mesentery, from viscera to the dorsal abdominal wall. Omentum, from the stomach to other viscera and ligament, from viscera not involved in digestion to the abdominal wall or to other viscera that are not involved in digestion (e.g.ligaments of the liver).
Mesenteries
The entire alimentary tract is attached to the dorsal body wall by mesentery, a derivative of the dorsal mesogastrium. Mesoduodenum attaching the duodenum to the abdominal roof contains the right lobe of the pancreas. Great Mesentery extends from the jejunum and ileum to the abdominal roof and contains the cranial abdominal artery and vein, mesenteric lymph nodes and mesenteric plexus. Mesocolon attaches the colon and mesorectum the rectum to the abdominal roof. The female reproductive tract is also suspended by peritoneal derivatives. The broad ligament consisting of mesometrium, mesosalpinx and mesovarium, from ovary, oviduct, uterus, cervix and cranial vagina to the dorsal body wall, contains ovarian artery, uterine branch of the ovarian artery, uterine artery, ovarian vein, uterine vein and uterine lymph node (mare).
Omenta
During development in the region of the stomach, a fold of the dorsal mesogastrium becomes extended into a curtain - like structure called the greater omentum. It originates from the dorsal wall of the abdomen and attaches to the greater curvature of the stomach. The potential space between the two sheets is called the omental bursa. It covers the jejunal mass on the ventral abdominal wall. The opening to the omental bursa is called the epiploic foramen. The lesser omentum runs from the lesser curvature of the stomach to the liver.
Ligaments
The gastrophrenic ligament - from the greater curvature of the stomach to the crura of the diaphragm.
The gastrosplenic ligament - part of the greater omentum. Connects the spleen to the stomach.
The hepatoduodenal ligament - remnant of the ventral mesogastrium. From the cranial part of the duodenum to the liver. The bile duct runs within it.
The nephrosplenic ligament (renosplenic ligament) - In the horse, from spleen to left kidney.
The round ligament - part of the broad ligament. From the ovary to the inguinal ring.
The suspensory ligament - from the ovary to the abdominal wall.
The proper ligament of the ovary - from the ovary to the oviduct.
The ligaments of the Liver.
Intraperitoneal Organs
Organs are intraperitoneal if they are enclosed by a fold of visceral peritoneum. Intraperitoneal organs include: the [Monogastric Stomach - Anatomy & Physiology|stomach]], small intestine, large intestine, liver, gall bladder, pancreas and spleen.
Retroperitoneal Organs
Organs are described as retroperitoneal if they are located behind the parietal peritoneum. Retroperitoneal organs include: the kidneys, adrenal glands, ureters, urinary bladder, part of the oesophagus, rectum, ovaries, uterus, aorta and caudal Vena Cava.
Links
Click here for information on the pathology of the peritoneal cavity
Peritoneal Cavity - Anatomy & Physiology Learning Resources | |
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Vetstream To reach the Vetstream content, please select |
Canis, Felis, Lapis or Equis |
Flashcards Test your knowledge using flashcard type questions |
peritoneal cavity flashcards |
Videos Selection of relevant videos |
The Small and Large intestine of the Ruminant The Bovine Liver The Canine Abdomen Lateral View of the Equine Abdomen The Equine Liver Left Sided topography of the Equine abdomen Left Sided topography of the Equine abdomen The Feline Abdomen Left sided topography of the Ovine Abdomen and Thorax Right sided topography of the Ovine Abdomen Structure of the ruminant forestomachs |
Full Text Articles Full text articles available from CAB Abstract (CABI log in required) |
Greater omentum: the surgeons' friend, no longer a forgotten organ. Saifzadeh, S.; Iranian Veterinary Surgery Association, Kermen, Iran, Iranian Journal of Veterinary Surgery, 2008, Supplement 2, pp 39-47, 60 ref. |
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