GI Flashcards
(29 cards)
Describe the development of the muscular and fascial layers of the abdominal wall, including the inguinal canal
Muscular layers develop from the mesoderm of the gut splitting into a somatic layer
Lateral folding causes the two sides to meet in the middle (linea alba)
The inguinal canal is an oblique passage through the layers of the abdominal wall (in males, allows the passing of the testes into the scrotum)
Explain how the process of folding in the embryo during the 4th and 5th week creates the primitive gut, abdominal wall and the coelomic cavity
Folding creates a primitive gut tube, lined with endoderm and divisible into foregut, midgut, hindgut
The mesoderm surrounding the gut splits into a somatic layer (develops into muscles and fascia of abdominal wall) and a splanchnic layer (becomes smooth muscle of gut wall)
The coelomic space is created by the space between the layers
Explain the developmental basis of umbilical and inguinal hernias
Umbilical - during lateral folding, the two sides of the abdomen come together and meet at the midline (linea alba)
Inguinal - in males, the inguinal canal allows for the passage of the testes into the scrotum, forms the fascial covering of the spermatic cord
Areas of weakness
Describe how the coelomic cavity and peritoneal cavity develop
Coelomic cavity - when the mesoderm surrounding the gut splits into the somatic and splanchnic layers, it creates a space
Peritoneal cavity develops due to the ventral and dorsal mesenteries changing shape and position?
Describe the fate of the embryonic dorsal and ventral mesenteries
Dorsal mesentery - as stomach rotates, dorsal mesentery is drawn into a sac, the omental bursa, to become the greater omentum
Ventral mesentery - becomes lesser omentum
Explain how the greater and lesser omenta and the mesentery of the small intestine develop
Greater omentum - during rotation of the stomach, dorsal mesentery is drawn into a sac, the omental bursa
Lesser omentum - ventral mesentery, connects lesser curvature of stomach to liver
Mesentery of small intestine - jejunum, ileum remain suspended from mesentery and are mobile, ascending and descending colon, duodenum mesentery fuses with peritoneum on posterior abdominal wall to become immobile (retroperitoneal)
Explain the embryonic divisions of the gut
Foregut
Midgut (opening continuous with yolk sac)
Hindgut
Describe the primitive gut tube
Development begins in late third week
Runs from stomatodeum (future mouth) to proctodeum (future anus) with an opening at umbilicus
Internal endoderm lining
External mesoderm
Suspended in intracoelomic cavity by double layer of splanchnic mesoderm
What is a mesentery and why is it necessary?
A double layer of peritoneum suspending the gut tube from the abdominal wall
Allows blood and nervous supply
Allows motility
Describe the attachments of the mesenteries to the primitive gut tube
Ventral mesentery - foregut only
Dorsal mesentery - foregut, midgut, hindgut
What are omenta?
Specialised regions of peritoneum
Describe the rotation of the stomach and its result
Longitudinal rotation - greater curvature lies on left, lesser curvature lies on right
Anteroposterior rotation - cardia and pylorus move horizontally, greater curve pushed inferiorly
Explain the consequences of rotation of the stomach
Vagus nerves positioned anteriorly and posteriorly
Shifts cardia and pylorus from midline - stomach lies obliquely
Contributes to moving lesser sac behind the stomach
Creates the greater omentum
Explain the difference between retroperitoneal and secondary retroperitoneal
Retroperitoneal - was never in peritoneal cavity, never had a mesentery
Secondarily retroperitoneal - developed in peritoneal cavity but mesentery fused with posterior abdominal wall e.g. duodenum, pancreas
Describe the development of the lung bud
In 4th week, a respiratory diverticulum forms in the ventral wall of the foregut at the junction with the pharyngeal gut
List organs that develop in the ventral and dorsal mesenteries
Ventral - liver, biliary system, part of pancreas (uncinate process, inferior head)
Dorsal - spleen, pancreas (superior head, neck, body, tail)
Describe the development of the liver
Develops from a hepatic bud in ventral mesentery
Occupies a large proportion of abdomen
Contact with diaphragm –> bare area of liver
Fully developed by 6th week
Describe the development of the duodenum
Develops from caudal foregut and cranial midgut
Grows rapidly, forming C shaped loop when stomach rotates
In 5th and 6th week, lumen is obliterated then recanalised by end of embryonic period
Rotation of stomach pushes duodenum to right and against posterior abdomen wall
Describe the consequences of developmental defects as they relate to the abdominal wall and give relevant examples
Omphalocele - herniation of abdominal viscera through an enlarged umbilical ring, viscera covered by amnion, high rate of mortality
Gastroschisis - protrusion of abdominal contents through body wall directly into amniotic cavity, viscera not covered, excellent survival rate
Meckel’s diverticulum - remnant of yolk sac
Vitelline cyst - intestinal obstruction, strangulation, volvulus
Umbilical fistula - faecal discharge at umbilicus
Divarication of recti - laxity of linea alba –> herniation
Relate visceral referred pain to the embryological development of the gut
Visceral pain caused by ischaemia, abnormally strong muscle contraction, inflammation, stretch
Epigastric –> foregut pain (gall bladder, gastric, duodenal)
Periumbilical –> midgut pain (pancreatic, abdominal aorta)
Suprapubic –> hindgut pain (large bowel colic, uterine/ovarian)
Describe the role of rotation of the midgut loop in the establishment of the disposition of the abdominal viscera
SMA as its axis
Is connected to the yolk sac by vitelline duct
During 6th week, physiological herniation
During 8th week, midgut rotates 3x 90 degree anticlockwise turns
During 10th week, cranial limb (distal duodenum, jejunum, proximal ileum) returns to abdominal cavity first, moving to left side
Caecal bud descends
Describe the consequences of malrotation and give relevant examples
Incomplete rotation - only one 90 degree loop –> left sided colon
Reversed rotation - midgut loop makes one 90 degree rotation clockwise –> transverse colon passes anterior to duodenum –> strangulation
Describe the major complications of midgut defects
Volvulus –> strangulation, ischaemia
Describe the condition of Meckel’s diverticulum
Rule of 2s - 2% population, 2 feet from ileocecal valve, 2 inches long, detected under 2 years, 2:1 male:female
Can contain ectopic gastric or pancreatic tissue
Similar presentation to appendicitis
