Define the boundaries (including spaces and/or recesses) of the lesser sac including . Explain why damage to the stomach would produce sharp pains in the abdomen. Account for food particles also detected in the greater sac despite erosion of the posterior wall of the stomach. Discuss the pathway of materials that pass into the greater sac, and the location of these fluids/food contents with respect to body position. (12 pts)
The lesser sac is a diverticulum in the superior region of the peritoneal cavity. Communication with the greater sac is via the epiploic foramen. For the most part, the lesser sac is posterior to the stomach and liver, anterior to the pancreas and diaphragm, superior to the duodenum, pancreas, and transverse mesocolon, inferior to the liver and diaphragm, left of the caudate, and right to the gastroleino and leinorenal ligs.
Superior recess - posterior to liver, begins at epiploic foramen
anterior - caudate lobe of liver and lesser omentum
posterior - diaphragm
superior - diaphragm
inferior - lesser recess
right - liver, ligamentum venosum
left - splenic recess
Inferior recess - inferior ot the right gastropancreatic fold (common hepatic a.)
posterior - aorta, left suprarenal gland, upper pole left kidney, splenic a., diaphragm
superior - liver and diaphragm
inferior - inferior recess
right - caudate lobe, superior recess
left - gastroleino and leinorenal ligaments
Epiploic foramen - communication between lesser and greater sacs
anterior - hepatoduodenal ligament
posterior - inferior vena cava
superior - caudate lobe liver
inferior - duodenum
right - opening into hepatorenal recess and right paracolic gutter
left - lower recess of lesser sac
Pathway of Materials?
Person rolls to the right - contents of lesser sac enter the greater sac via the epiploic foramen
Person returns to supine - contents enter the hepatorenal recess
Person stands - contents follow the right paracolic gutter to the pelvic basin and the rectouterine or rectvesical pouch
General discussion of abdominopelvic gutters
Somatic afferent innervation
parietal peritoneum of the posterior wall innervated by thoracoabdominal nerves
Why sharp pain?
Irritation of the parietal peritoneum of the posterior wall activates somatic afferent activity in the thoracoabdominal nerves (intercostals, subscostals, iliohypogastric, ilioinguinal) and possibly phrenic nerve.
Vascular supply of the Walls - vascular supply is by regional aa and vv (optional)
posterior - splenic av
anterior - common hepatic, right gastric, left gastric, aa
inferior - right and left gastroepiploic aa vv, supra- and retroduodenal aa vv
superior - inferior phrenic av
left - short gastric aa vv
right - right and left gastric aa vv
Lymphatic drainage of the Walls - follows vascular supply (optional)
paraaortic nodes to lumbar trunks to cysterna chyli
diaphragmatic border involves mediastinal and axillary nodes (anterior wall vasculature)
Autonomic Innervation to the Walls (optional)
sympathetic preganglonics - mostly from greater and lesser splanchnic nerves (cell bodies in imlcc of T5-11)
sympathetic postganglionics - mostly from celiac plexus (cell bodies in celiac ganglion)
parasympathetic preganglionics - from vagus nerve (cell bodies in dorsal motor nucleus of vagus nerve)
Discuss the course and branches of the internal pudendal artery in the pelvis, gluteal region, and perineum. Please include anatomical relationships of the artery, fascial layers involved, as well as spaces/recesses encountered by the internal pudendal artery and its branches. (12 pts)
General Comments and Overview
The internal pudendal artery arises from within the pelvic and a branch of the internal iliac artery. It leaves pelvis via greater sciatic foramen to enter gluteal region. The short gluteal course loops posterior to ischial spine. Inferior the the spine the artery enters the ischiorectal fossa via lesser sciatic foramen.
Internal pudendal artery enters pudendal canal
osseofibrous canal formed by obturator internus fascia and falciform edge of ischial tuberosity
elaborates inferior rectal branch just before canal or from within canal
courses inferior, medial, and anterior through fatty tissue toward anorectal area
exits canal at posterior free edge of urogenital diaphragm within ischiorectal fossa
elaborates terminal branches
superficial perineal a. - posterior scrotal (labial)
deep perineal a. - pierces superficial perineal fascia to enter superficial pouch o to muscles of superficial and deep pouches
dorsal a. of the clitoris or penis
runs along conjoint ramus within anterior recess ischiorectal fossa.
pierces tranverse perineal ligament to enter onto dorsum of penis or clitoris
deep to Buck's fascia and superficial to tunica albuginea
resides lateral to deep dorsal vein and medial to dorsal nerve
other descriptions indicate a course through the superficial and deep pouches
both descriptions are verified on dissection
travels partway along conjoint ramus within anterior recess of ischiorectal fossa
pierces superior fascia of urogenital diaphragm to enter the deep pouch
pierces inferior fascia of urogenital diaphragm at tunica albuginea of crus
pierces crus to enter corpora cavernosum and course distally
Discuss the anatomy of the pelvic diaphragm. Include structure, fascial coverings, spaces, vascularization, innervation, lymphatic drainage and relationships. (12 pts)
Structure and fascial coverings of the pelvic diaphragm
The pelvic diaphragm is a thin sheet of muscle. The urethra, vagina, and anal canal pass through the pelvic diaphragm at the urogenital hiatus. Posterior to the vagina and anterior to the anal canal, the urogenital hiatus is filled by the perineal body and the pubococcygeus muscle. The pelvic diaphragm functions in micturation and defecation by controlling intra-abdominal pressure and the anatomical properties of functional sphincters -- uvula and puborectal sling.
The anterior aspect of the pelvic diaphragm is made up of the pubococcygeus, iliococcygeus, and the puborectalis. Collectively, these three muscles constitute the levator ani. Its lateral halves slope inferiorly medially from the arcus tendineus to meet at the midline of pelvic floor. The pubococcygeus and especially the ilococcygeus, upon contracting, raise the pelvic floor. These two muscles are tethered to the coccyx by the anococcygeal raphe and insert upon the lateral aspects of the urethra, prostate, vagina, and anal canal.
The puborectalis arises from the pubic bones near the superior aspect of the symphysis. It lies on the inferior surface of the pubococcygeus muscle. Posteriorly, the puborectalis muscle circles the anorectal junction. It is not tethered by the anococcygeal raphe. Thus, when contracted, the puborectalis pulls the rectum anterior and thereby promotes fecal continence.
The posterior wall of the pelvic diaphragm is defined by the ischiococcygeus muscle. This muscle is not antomically favored to directly elevate the pelvic and, thus, is not included as part of levator ani. However, the ischiococcygeus muscle, by virtue of its attacments to the ischial spine and the coccyx acts of approximate these two structures and indirectly assists in elevating the pelvic floor.
The superior surface of the pelvic diaphragm is covered by parietal pelvic fascia. This fascia is continuous with the transversalis fascia of the abdominal cavity. The inferior surface of the pelvic diaphragm is covered by the inferior fascia. This fascia is continuous with deep fascia of the perineum.
Relations of the pelvic diaphragm
Superior - immediate is pelvic visceral fascia then the pelvic viscera and the abdominal cavity; retropubic space, presacral space, paravesical space, pubosacral ligamentous complex
Inferior anterior - superior fascia urogenital diaphragm
Inferior posterior - posterior recess of ischiorectal fossa including fat, gluteus maximus, and perineal skin
lateral - arcus tendineus and obturator internus fascia (oburator nerve, external iliac artery and vein)
anterior - superior aspect of the conjoint rami near pubic symphysis
Posterior - piriformis muscle and sacrum (sacral plexus, sacral sympathetic trunk, middle sacral artery, effluents of sciatic foramina)
Vasculature of pelvic diaphragm
The pelvic diaphragm recieives arterial supply from the internal iliac. In particular, the inferior vesical arteries, the middle rectal arteries, the internal pudendal arteries, and the inferior rectal arteries all supply the pelvic diaphragm. Similarly, veins if the same name provide venus drainage.
Innervation of pelvic diaphragm
The levator ani is innervated by the nerve to levator ani derived from S3-4. Additionally, the perineal surface of the levator ani receives innervation from inferior rectal branches of the pudendal nerve.
The ischiococcygeus is supplied by the nerve to coccygeus derived from S4-5.
Lymphatic drainage of pelvic diaphragm
Lymphatic drainage of pelvic diaphragm follows branches of the interanl iliac artery to internal iliac nodes, then to upper lumbar nodes, lumbar lymph ducts, and the cysterna chyli. Other drainages include the sacral nodes and the common iliac nodes.
Lymphatic drainage from inferior surfaces may be to the superficial inguinal lymph nodes.