Narrow Abdomen Flashcards
3 parietal branches of the abdominal aorta
inferior phrenic nerve - originates just below the diaphragm, supplying it from below
lumbar branches - four on each side supplying the abdominal wall and spinal cord
median sacral - artery arising from the middle of the aorta at its lowest part
3 paired visceral branches of the abdominal aorta
Middle suprarenal - to adrenal gland
renal - at the transpyloric plane
gonadal arteries at L2
3 unpaired visceral branches of the abdominal aorta
Coeliac trunk - upper border of L1
SMA - Lower L1
IMA - L3
Arterial supply of the colon - description
- Caecum to the splenic flexure is midgut (supplied by the SMA), then becomes the hindgut (supplied by the IMA)
- Part of the rectum is supplied by the internal iliac system and this anastamoses with the lower branches of the inferior mesenteric system
- Arteries pass between layers of mesentery
- Arterial anastamoses occur throughout
Branches of the SMA
• inferior pancreaticoduodenal artery
• jejunal branches
• ileal branches
• ileocolic artery
o ileal branch that supplies the terminal ileum
o colic branch that supplies the proximal ascending colon
o anterior and posterior caecal arteries
o appendicular artery
• right colic artery
o descending branch that supplies the lower portion of the ascending colon
o ascending branch which supplies the upper portion of the ascending colon
• middle colic artery
o right branch supplies the right portion of the transverse colon
o left branch supplies the left portion of the transverse colon
IMA branches
• left colic artery o ascending branch o descending branch • two-to-four sigmoid arteries • superior rectal artery o terminal branch of the IMA o divides into two terminal branches which descend on each side of the rectum
Marginal artery of Drummond
• continuous arterial circle along the inner border of the colon formed by the anastomoses of the terminal branches of the SMA and IMA
• straight vessels (vasa recta) pass from this marginal artery to the colon
• important connection between the SMA and IMA providing collateral flow in the event of occlusion or significant stenosis
• junction of the SMA and IMA territories is at the splenic flexure
o anastomoses here are often weak or absent, hence the marginal artery at this point (known as Griffiths point) is often focally small or discontinuous
o for this reason, the splenic flexure is a watershed area prone to ischaemia / infarction
Arterial supply to the liver - description
- Common hepatic artery is a terminal branch of the coeliac artery
- Proper hepatic artery is a branch of the common hepatic artery
- The proper hepatic artery runs with the portal vein and the CBD in the hepatoduodenal ligament to the porta hepatis
- It terminates by bifurcating into the right and left hepatic arteries before entering the porta hepatitis of the liver
- Variations of arterial supply to the liver are common (50% of people)
Variations of arterial supply of the liver
Common hepatic artery:
• arising from the from aorta (2%)
• arising from the from SMA (2%)
• trifurcation into RHA, LHA and GDA (~6%)
Right hepatic artery (RHA):
• arising from the coeliac trunk (2.5%)
• arising from the SMA (12.5%) - most common
• accessory RHA from SMA (4%)
Left hepatic artery (LHA):
• arising from the left gastric artery (7.5%) - second most common
• accessory LHA from LGA (7.5%)
Right and left hepatic arteries:
• RHA from SMA and LHA from LGA (1%)
• accessory RHA from SMA and accessory LHA from LGA (1%)
Course/relation of the renal arteries
- right renal artery courses inferiorly and passes posterior to the IVC and the right renal vein to reach the renal hilum
- left renal artery passes more horizontally, posterior to the left renal vein to enter the renal hilum
- ureter is most posterior structure in the renal hilum
Course/relation of the renal veins
- emerges from the renal hilum anterior to the renal artery
- drains into the inferior vena cava at the level of L2
- left renal vein is much longer (6-7cm) than the right renal vein (3-4cm)
- the left renal vein courses anteriorly to the abdominal aorta, under the SMA
- At the hilum, the order from superficial to deep is vein, artery, ureter
Branches of the renal artery
- inferior adrenal artery
- capsular artery
- ureteric artery
- terminates by dividing into dorsal and ventral rami
Tributaries of the renal vein
• left renal vein:
o left gonadal vessel
o left adrenal vein
o sometimes left inferior phrenic
o small branches from kidney capsule, proximal ureter and renal pelvis
• right renal vein
o small branches from kidney capsule, proximal ureter and renal pelvis
Variations of the renal artery
• early / perihilar branching
• accessory renal arteries
o can sub-categorize
o accessory artery - supplying the renal hilum
accessory renal arteries most commonly arise from abdominal aorta but can arise from coeliac trunk, SMA, middle colic
o aberrant renal artery - supplying inferior pole (more common)
Variations of the renal vein
- retroaortic left renal vein - renal vein courses behind the aorta to empty into the IVC
- circumaortic left renal vein - forms collar around the abdominal aorta
- supernumerary renal veins - can affect either kidney
- Nutcracker syndrome: compression of the left renal vein between the SMA and aorta, can cause venous hypertension
Bowel variants
Intestinal malrotation:
• Congenital anomaly of rotation of the midgut
• Predispose to midgut volvulus and internal hernias
• Non-rotation is a subtype of malrotation
Situs inversus:
• Congenital condition in which the major visceral organs are reversed or mirrored from their normal positions
Caecal variants:
• Subhepatic caecum: failure of the caecum to migrate to its typical position during midgut rotation in embryogenesis
• Mobile caecum: incomplete fixation to the retroperitoneum due to right colonic mesentery failing to fuse to the lateral peritoneum
Caecum - description
- Caecum is a blind-ending sac of bowel, the first part of the large bowel, and lies in the right lower quadrant of the abdomen
- Superior margin of the caecum is defined by the ileocaecal ostium
- Upper and lower flaps consisting smooth muscle protrude into the lumen around the ostium forming the ileocaecal valve
- Above which the large intestine continues as the ascending colon
- Caecum measures 6cm in length and can have a maximum diameter of 9cm before it is considered abnormally enlarged
- Appendix typically arises from the posteromedial surface, 2cm inferior to the ileocaecal valve
- Caecum is covered in peritoneum, except posteriorly
- Three longitudinal bands (taenia coli) start from the appendix
- The wall is composed of four coats: serosa, muscularis externa, submucosa and mucosa
Caecum - relations
- Anterior - parietal peritoneum, anterior abdominal wall and loops of small bowel
- Posterior - iliacus muscle, psoas muscle, femoral nerve, lateral cutaneous nerve of the thigh, appendix (variable)
- Medial - ileocaecal valve, terminal ileum, external iliac vein and artery, right ureter
- Superior - ascending colon
- Inferior - lateral third of the inguinal ligament
Caecum - neurovasculature
Arterial supply:
• Ileocolic artery giving the anterior and posterior caecal arteries
Venous drainage:
• Anterior and posterior caecal veins to the SMV (a tributary of the portal venous system)
Lymph drainage:
• Paracolic lymph nodes which drain to the superior mesenteric lymph node group
Nerve supply:
• Sympathetic supply via superior mesenteric plexus
• Parasympathetic supply via pelvic splanchnic nerves (from S2-S4)
• Enteric nervous system
Caecal - variations
- Subhepatic caecum - failure of the caecum to migrate to its typical position during midgut rotation in embryogenesis
- Mobile caecum - incomplete fixation to the retroperitoneum due to right colonic mesentery failing to fuse to the lateral peritoneum
- Retrocaecal, subcaecal, paracaecal, preileal, postileal and pelvic variation of the appendix
Common bile duct - description
- Transmits bile into the duodenum
- Along with the cystic duct makes up the extra-hepatic bile ducts
- Cystic duct + common hepatic duct = CBD
- CBD is approximately 8cm long and usually <6mm wide in diameter
Common bile duct - course/relation
- The CBD travels initially in the free edge of the lesser omentum (with proper hepatic artery and the portal vein)
- Then courses posteriorly to the duodenum and pancreas to unite with the main pancreatic duct to form the ampulla of Vater
- Drains at the major duodenal papillae on the medial wall of the D2 segment of the duodenum
- Calot triangle (relation)
Common bile duct - arterial supply
- Upper part: cystic artery
* Lower part: superior pancreatico-duodenal artery
Common bile duct - variants
• Four main relationships of the CBD with the pancreatic head:
o partially covered posteriorly (most common ~50%)
o completely covered
o completely uncovered
o CBD may pass laterally to the pancreatic head (least common)
Duodenum - Description
- Duodenum is the first part of the small intestine and is the continuation of the stomach
- Duodenum is a 20-30cm C-shaped hollow viscus
- Lies at the level of L1-3
- Convexity of the duodenum usually encompasses the head of the pancreas
- Duodenum begins at the duodenal bulb and ends at the ligament of Treitz
- Continues as the jejunum (duodenojejunal / D-J flexure)
- Composed of four parts (D1-4)
- Four layers: mucosa, submucosa, muscularis propria (inner circular, outer longitudinal), adventitia
Course D1
o commences at the pylorus and passes backward, upward, and to the right, beneath the quadrate lobe to the body of the gall-bladder
o intraperitoneal for first 2-3 cm
Course D2
o descends along the right margin of the head of the pancreas, generally to the level of the upper border of the body of L3
o pancreatic duct and CBD enter the descending duodenum through the major duodenal papilla (ampulla of Vater)
o also contains the minor duodenal papilla, the entrance for the accessory pancreatic duct
o junction between the embryological foregut and midgut lies just below the major duodenal papilla
Course D3
o takes a second bend, and passes from right to left across the vertebral column
Course D4
o ascends and ends opposite L2
o unites with the jejunum, forming the duodendojejunal flexure
o DJ flexure is surrounded by a peritoneal fold containing muscle fibres (ligament of Treitz)
D1 relations
o anteriorly - gallbladder, quadrate lobe of liver
o posteriorly - common bile duct, portal vein, gastroduodenal artery
o superiorly - epiploic foramen
o inferiorly - pancreatic head
D2 relations
o anteriorly - transverse mesocolon
o posteriorly - right kidney, right ureter, right adrenal gland
o superiorly - liver, gallbladder (variable)
o inferiorly - loops of jejunum
o laterally - ascending colon, hepatic flexure, right kidney
o medially - pancreatic head
D3 relations
o anteriorly - small bowel mesentery root, SMA, SMV
o posteriorly - right psoas muscle, right crus of diaphragm, right ureter, gonadal vessels, aorta and IVC
o superiorly - pancreatic head / uncinate process
o inferiorly - loops of jejunum
D4 relations
o superiorly - stomach
o inferiorly - loops of jejunum
o posteriorly - left psoas muscle, aorta, left renal vessels
Duodenum - arterial supply
- Duodenal cap (first 2.5cm) - supraduodenal artery (branch of gastroduodenal artery)
- Remaining D1 to mid D2 - superior pancreaticodudenal artery (branch of gastroduodenal artery)
- Mid-D2 to ligament of Trietz - inferior pancreaticoduodenal arteries (branch of SMA)
Duodenum -venous drainage
- Duodenal cap (first 2.5cm) - prepyloric vein (drains to portal vein)
- Remaining duodenum - superior pancreaticoduodenal vein (drains to portal vein) and inferior pancreaticoduodenal vein (drains to SMV)
Duodenum - Lymph drainage
- Coeliac Nodes
* Superior Mesenteric Nodes
Duodenum - nerve supply
- Sympathetic nerve fibres via coelic and superior mesenteric trunks
- Parasympathetic nerve fibres via anterior and posterior vagal trunks
- Enteric nervous system
Duodenum Variants
• Duodenal diverticulum - most commonly occurs in D2 or D3
• Duodenal duplication - most commonly occurs at the medial wall of D2 or D3
o appears as a cystic structure that does not communicate with the lumen
• Malrotation
• Duodenal atresia
• Third part can cross as low as L4
Epiploic foramen boundaries
Borders:
• Anterior: the free border of the lesser omentum (hepatoduodenal ligament)
o this has two layers and within these layers are the CBD, proper hepatic artery and portal vein (DAVE: Duct, Artery, Vein, Epiploic foramen)
o hepatoduodenal ligament + hepatogastric ligament = lesser omentum
• Posterior: the peritoneum covering the inferior vena cava
• Superior: the peritoneum covering the caudate lobe of the liver
• Inferior: the peritoneum covering the commencement of the duodenum and the hepatic artery
o hepatic artery passes forward below the foramen before ascending between the two layers of the hepatoduodenal ligament
• Left lateral: gastrosplenic ligament and splenorenal ligament
Gallbladder - description
• The gall-bladder is a pear-shaped musculomembranous sac
• Divided into a fundus, body, and neck
• Extends from the right border of porta hepatis, inferolaterally
• Gallbladder consists of four layers: serosa, muscularis externa, lamina propria, mucosa
• The cystic duct connects the neck of the gallbladder to the common hepatic duct
• Calot’s triangle is an anatomic space bordered by the CHD medially, the CD laterally and inferior border of liver
o contains Lund’s node (lymph node) which may enlarge in cholecystitis
o may contain cystic artery, accessory right hepatic artery or anomalous bile ducts within triangle (important surgical implications)
Gallbladder - relations
- Superiorly: liver
- Inferiorly: transverse colon, D2 segment of the duodenum (or pylorus of the stomach)
- Anteriorly: liver, transverse colon, 9th costal cartilage
- Medial: IVC
- The cystic duct travels alongside the cystic artery
Gallbladder - neurovasculature
Arterial supply:
• Cystic artery (branch of right hepatic artery)
Venous drainage:
• Cystic vein drains directly into the right portal vein
Lymph drainage:
• Nodes at the porta hepatis and portal nodes
• Subsequently to the coeliac lymph nodes
Nerve supply:
• Sympathetic: coeliac plexus (passes along the cystic artery)
• Parasympathetic: vagus nerve
Gallbladder - variant anatomy
• Morphology
o Phrygian cap: the fundus is sometimes folded back upon itself
o Hartmann pouch (infundibulum): neck is focally dilated and probably pathological / related to cholelithiasis
• Number
o accessory gallbladder
gallbladder bifid / duplication / triplication
cystic duct may also be duplicated / tripled
gallbladder agenesis
• Location
o left-lobe > intrahepatic > retrohepatic
Cystic duct
o low cystic duct insertion - into the distal-third of the CHD
o medial cystic duct insertion - into the left, not the right, side of the CHD
o parallel cystic duct course - courses parallel to the CHD for at least 2cm
o cystic duct empties into the right posterior hepatic duct
Locations of hernas
A: epigastric - through a defect in linea alba superior the umbilicus
B: incisional - widening / dehiscence of the scar allows intra-abdominal content to herniate into the subcutaneous tissues
C: umbilical - at the umbilicus in the midline
D: direct - through a weakness of the posterior wall of the inguinal canal medial to the inferior epigastric vessels (through the Hesselbach’s triangle)
E: indirect - protrude through the deep or internal inguinal ring into the inguinal canal (lateral to the Hesselbach’s triangle)
F: femoral - through the femoral ring into the femoral canal, posterior and inferior to the inguinal ligament
Inguinal triangle
- Medial border: lateral margin of the rectus sheath (linea semilunaris)
- Superolateral border: inferior epigastric vessels
- Inferior border: inguinal ligament
