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Anatomy of the peritoneum

Anatomy of the peritoneum. Greek, peritonaion = stretch around The peritoneum is a large serous membrane lining the abdominal cavity. Histologically, it is composed of an outer layer of fibrous tissue (which gives strength to the membrane)

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Anatomy of the peritoneum

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  1. Anatomy of the peritoneum .

  2. Greek, peritonaion = stretch around • The peritoneum is a large serous membrane lining the abdominal cavity. • Histologically, it is composed of an • outer layer of fibrous tissue (which gives strength to the membrane) • inner layer of mesothelial cells (which secrete a serous fluid which lubricates the surface thus allowing the free movement of the viscera )

  3. The peritoneum is in the form of a closed sac invaginated by a number of viscera • Parietal peritoneum – outer layer-lines the walls of the abdominal and pelvic cavities • Visceral peritoneum – inner layer-covers the organs • Peritoneal cavity –the potential space between the parietal and visceral layer of peritoneum • In the male, it is a closed sac, but in the female, there is a communication with the exterior through the uterine tubes, the uterus, and the vagina

  4. Parietal peritoneum • Embryologically, it is derived from the somatopleural layer of the lateral plate mesoderm. • Blood supply & nerve supply are the same as those of the overlying body wall • It is pain sensitive because of the somatic innervation. • It can be easily stripped as it is loosely attached to the walls by extra-peritoneal connective tissue.

  5. Visceral peritoneum • Embryologically it is derived from the splanchno-pleural layer of the lateral plate mesoderm. • Blood supply & nerve supply are the same as those of the underlying viscera. • It is pain insensitive because of the autonomic innervation. • It is firmly adherent to the viscera & cannot be stripped; forms part & parcel of the viscera.

  6. The relationship between viscera and peritoneum • Many organs in the abdomen are suspended by folds of peritoneum. Such organs are mobile/ intraperitoneal. The degree & direction of mobility are governed by the size & direction of peritoneal fold. • Other organs are fixed & immobile. They rest directly on the posterior abdominal wall, & may be covered by peritoneum on one side. Such organs are said to be retroperitoneal.

  7. Intraperitoneal viscera Interperitoneal viscera Retroperitoneal viscera Intraperitoneal viscera-viscera completely surrounded by peritoneum. stomach, superior part of duodenum, jejunum, ileum, cecum, vermiform appendix, transverse and sigmoid colons, spleen and ovary Interperitoneal viscera-most part of viscera surrounded by peritoneum. liver, gallbladder, ascending and descending colon, upper part of rectum, urinary bladder and uterus Retroperitoneal viscera-lie on the posterior abdominal wall & covered by peritoneum on anterior surface only kidney, suprarenal gland, pancreas, descending and horizontal parts of duodenum, middle and lower parts of rectum, and ureter

  8. Interperitoneal viscera

  9. Peritoneal folds are given various names! • Prefix ‘mes’ or ‘meso’ (in the middle of), followed by the name of the organ • Small intestine(enteron)- mesentery • Colon- mesocolon • Large folds attached to the stomach are called omenta (omentum=cover) • Double-layered folds of peritoneum connect organs to the abdominal wall or to each other- called ligaments • Gastrosplenic ligament

  10. Peritoneal folds • They are best understood by recapitulating the embryology of the gut • Developing gut- divisible into 3 parts foregut, midgut & hindgut • Each part has its own artery which is a ventral branch of the abdominal aorta • Coeliac- foregut, SMA- midgut, IMA-hindgut

  11. Foregut- esophagus, stomach, upper part of duodenum (till CBD opening in D2) • Midgut- rest of duodenum, jejunum, ileum, appendix, caecum, ascending colon, right 2/3rd of transverse colon • Hindgut- left1/3rd of transverse colon, descending colon, sigmoid colon, rectum, upper part of anal canal upto pectinate line

  12. The abdominal part of the foregut is suspended by mesenteries both ventrally & dorsally Dorsal mesogastrium Ventral mesogastrium

  13. ….. • The ventral mesogastrium becomes divided by the developing liver into a ventral part & a dorsal part.

  14. Fate of Ventral mesogastrium • The ventral part forms the ligaments of the liver, namely: • falciform ligament • triangular ligaments • coronary ligaments • The dorsal part forms the lesser omentum

  15. Fate of dorsal mesogastrium • Caudal part becomes greatly elongated to form the greater omentum • Cranialmost part forms the gastrophrenic ligament

  16. Fate of dorsal mesogastrium • The spleen develops in relation to the cranial part & divides it into dorsal & ventral parts. • Dorsal part forms the lienorenal ligament. • Ventral part forms the gastrosplenic ligament.

  17. The midgut & hindgut have only a dorsal mesentery which forms the mesentery of the jejunum and ileum, the meso-appendix, transverse mesocolon & the sigmoid mesocolon. • The mesenteries of the duodenum, ascending colon, descending colon & the rectum are lost during development.

  18. The peritoneal cavity is divided broadly into two parts • Main larger part is known as the greater sac • Smaller part situated behind the stomach, lesser omentum & liver is known as the lesser sac • Two sacs communicate through the epiploic foramen(of Winslow)

  19. Sex differences Male • Peritoneum is a closed sac lined by mesothelium (flattened epithelium) Female • peritoneal cavity communicates with the exterior thro the uterine tubes • the peritoneum covering the ovaries is lined by cubical epithelium • the peritoneum covering the fimbria is lined by columnar ciliated epithelium

  20. Structures which are formed by peritoneum Omentum fold of peritoneum that extends from stomach to adjacent organs Greater omentum

  21. Greater omentum four-layered fold of peritoneum, the anterior two layers descend from the greater curvature of stomach and superior part of duodenum and hangs down like an apron in front of coils of small intestine, and then turns upward and attaches to the transverse colon.

  22. Lesser omentum two layered fold of peritoneum which extends from porta hepatis to lesser curvature of stomach and superior part of duodenum • Hepatogastric ligament extends from porta hepatis to lesser curvature of stomach • Hepatoduodenal ligament Extends from porta hepatis to superior part of duodenum Contains common bile duct, proper hepatic a. and hepatic portal v. Lesser omentum

  23. Lessersac Greater sac

  24. Lesser sac Lesser omentum Greater omentum The mesentery Greater sac Vertical tracing of the peritoneum

  25. Male pelvis Female pelvis Rectovesicle pouch Rectouterine pouch

  26. Geater omentum Horizontal tracing below the level of transverse colon

  27. Epiploic foramen Horizontal disposition at the Epiploic foramen

  28. Omental foramen /epiploic foramem • Behind the right border of hepatoduodenal ligament • Superior-caudate lobe of liver • Inferior-superior part of duodenum • Anterior- lesser omentum ,hepatodudenal ligament • Posterior-peritoneum covering the inferior vena cava

  29. Omental bursa /lesser sac Position-situated behind the lesser omentum and stomach Walls • Superior-peritoneum which covers the caudate lobe of liver and diaphragm • Anterior-formed by lesser omentum, peritoneum of posterior wall of stomach, and anterior two layers of greater omentum • Inferior-conjunctive area of anterior and posterior two layers of greater omentum • Posterior-formed by posterior two layers of greater omentum, transverse colon and transverse mesocolon, peritoneum covering pancreas, left kidney and suprarenal gland

  30. Left-formed by the spleen, gastrosplenic ligamentand splenorenal ligament • Right-formed by omental foramen The Omental bursa (lesser sac) communicates with the greater sac through the omental foramen.

  31. Mesenteries or mesocolons-two-layered fold of peritoneum that attach part of the intestines to the posterior abdominal wall

  32. Mesenteries: result from the invagination of "intraperitoneal" organs into the sac. The mesenteries connect viscera to the posterior abdominal wall and are VERY important in that they conduct blood vessels and nerves.

  33. Mesentery suspends the small intestine from the posterior abdominal wall • Broad and a fan-shaped • Consists of two peritoneal layers • Intestinal border-folded, 7 m long • Root of mesentery • 15 cm long • Directed obliquely from left side of L2 to in front of right sacroiliac joint

  34. Mesoappendix • Triangular mesentery-extends from terminal part of ileum to appendix • Appendicular artery runs in free margin of the mesoappendix

  35. Transverse mesocolona double fold of peritoneum which connects the transverse colon to the posterior abdominal wall Sigmoid mesocolon inverted V-shaped, with apex located in front of left ureter and division of common iliac artery

  36. Ligaments -two-layered folds of peritoneum that attached the lesser mobile solid viscera to the abdominal wall Ligaments of liver • Falciform ligament of liver • Consists of double peritoneal layer • Extends from anterior abdominal wall (umbilicus) to liver • Free border of ligament site of ligamentum teres

  37. Coronary ligament the area between upper and lower parts of the coronary ligament is the bare area of liver, this area is devoid of peritoneum and lies in contact with the diaphragm • Left and right triangular ligaments formed by right extremity of coronary ligament and left leaf of falciform ligament, respectively

  38. Hepatogastric ligament • Hepatoduodenal ligament • Ligamentum teres hepatis

  39. Ligaments of spleen • Gastrosplenic ligament-a double layer of peritoneum that connects the fundus of stomach to hilum of spleen. In this double layer of peritoneum are the short gastric and left gastroepiploic vessels • Splenorenal ligament-extends between the hilum of spleen and anterior aspect of left kidney. The splenic vessels lies within this ligament, as well as the tail of pancreas • Phrenicosplenic ligament • Splenocolic ligament

  40. Ligaments of stomach • Hepatogastric ligament • Gastrosplenic ligament • Gastrophrenic ligament • Gastrocolic ligament • Gastropancreatic ligament

  41. Folds and recesses of posterior abdominal wall • Superior duodenal fold and recess • Inferior duodenal fold and recess • Intersigmoid recess formed by the inverted V attachment of sigmoid mesocolon

  42. Retrocecal recess in which the appendix frequently lies • Hepato-renal recess lies between the right lobe of liver, right kidney, and right colic flexure

  43. Hepato-renal recess is the lowest part of the peritoneal cavity when the subject is supine

  44. Folds and fossas of anterior abdominal wall • Median umbilical fold -contain the remnant of urachus (median umbilical ligaments) • Medial umbilical fold-contains remnants of the umbilical arteries (medial umbilical ligaments) • Lateral umbilical fold -contains the inferior epigastric vessels • Supravesical fossa • Medial inguinal fossa • Lateral inguinal fossa

  45. Pouches • In male-rectovesical pouch • In female • Rectouterine pouch between rectum and uterus • Vesicouterine pouch between bladder and uterus

  46. Peritoneal subdivisions The transverse colon and transverse mesocolon divides the greater sac into supracolic and infracolic compartments. Supracolic compartments (subphrenic space)-lies between diaphragm and transverse colon and transverse mesocolon Suprahepatic recesslies between the diaphragm and live-the falciform ligament divides it into right and left suprahepatic recesses

  47. Left supra-hepatic recesses • left anterior supra-hepatic spaces • left posterior supra-hepatic spaces • Right supra-hepatic recesses • right anterior supra-hepatic spaces • right posterior supra-hepatic spaces • bare area of live (extra-peritoneal space)

  48. Infra-hepatic recess lies between the liver and transverse colon and transverse mesocolon. Ligamentum teres hepatic divides it into right and left infra-hepatic recesses • Right infra-hepatic recesses (hepatorenal recess) • Left infra-hepatic recesses • left anterior infra-hepatic space • left posterior infra-hepatic space

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