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Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UNIPROT:Q16637 (
SMA
)
8,107
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The presence of more than three coeliac trunk branches is a commonly encountered variant. Literature occasionally describes cases of middle or left
colic
arteries originating from the celiac trunks or its branches; however, the presence of an anomalous arterial connection between the celiac trunk and both the superior and inferior mesenteric arteries (
SMA
and IMA, respectively) has yet to be reported. Routine abdominal dissection of a male Caucasian cadaver, revealed the presence of an anomalous fourth arterial branch on the 4-cm long coeliac trunk. The course of this artery was traced, and it terminated by anastomosing with the marginal artery of the mesenteric circulation. The distal termination point of this anomalous fourth coeliac branch was the marginal artery, 5 cm medial of the splenic flexure, anastomosing almost perpendicularly. The diameter of this anomalous artery was comparable with the left gastric artery at their origins. The artery coursed inferiorlaterally toward the splenic flexure, passing immediately posterior to both the pancreas and the splenic vein. The anastomosis point of this artery, near Griffith's Point, is normally considered a watershed region with dual arterial supply from both the
SMA
and IMA, allowing collateral circulation. This region has a relatively higher susceptibility to irreversible damage in ischemic diseases because of lower perfusion, thus, the anastomosis of atypical coeliac branches represents a rare case for consideration. Awareness of the possibility of embryological variants will minimize the risk of complications in surgical or clinical procedures, and exploration of rare variants will benefit the understanding of vascular embryology.
...
PMID:Atypical coeliomesenteric anastomosis: The presence of an anomalous fourth coeliac trunk branch. 2064 Oct 71
We analyzed data on the three-dimensional vascular anatomy of the right colon from the operative documents of 215 patients undergoing oncologic resection for right colon cancer. The right
colic
artery (RCA) was absent in 146 patients (67.9%), with the ileocolic artery (ICA) crossing the superior mesenteric vein (SMV) ventrally in 78 patients (36.3%). When the RCA was present, both the ICA and the RCA crossed the SMV ventrally in 44 patients (20.5%), dorsally in 10 patients (4.7%), the RCA crossed the SMV ventrally and the ICA dorsally in 10 patients (4.7%), and the RCA crossed the SMV dorsally and the ICA ventrally in 5 patients (2.2%). The arterial branches toward the hepatic flexure crossed the SMV ventrally in 151 eligible cases: the branch originated from the common trunk of the middle
colic
artery in 97 patients (64.2%) and 1 and 2 arteries directly originated from the
SMA
in 49 patients (32.5%) and in 5 patients (3.3%), respectively. These data would be useful to safely perform lymph node dissection around the SMV.
...
PMID:Three-dimensional vascular anatomy relevant to oncologic resection of right colon cancer. 2280 10
Laparoscopic radical colectomies have been more widely used gradually, among which laparoscopic extended right hemicolectomy is considered as the most difficult procedure. The difficulty of extended right hemicolectomy lies in the need to dissect lymph nodes along the superior mesenteric vein (SMV) and disconnect numerous and possible aberrant vessels. To address this problem, we emphasize two points in key vessel assessment: getting familiar with the anatomy along the medial-to-lateral approach and having a good understanding about the preoperative imaging presentations. An accurately preoperative imaging assessment by abdominal enhanced CT can help the surgeon understand the relative position of the key vessels to be dealt with during operation and the situation of the possible aberrant vessels so as to guide the procedure more effectively and facilitate the prevention and management of the intraoperative complications. During operation, the operator should pay special attention to the management of the vessels in the ileocolic vessel region, Henle's trunk and middle colon vessels. The operation highlights of the key vessels are as follows: (1) The ileocolic vessels: identifying the Toldt's gap correctly and opening the vascular sheath of the SMV securely; making sure that the duodenum is well protected. (2) Henle's trunk: dissecting along the surface of the Henle's trunk; preserving the anterior superior pancreaticoduodenal vein (ASPDV) and main trunk of the Henle's trunk; disconnecting the roots of the right
colic
vein (RCV) and right gastroepiploic vein (RGEV), and then dissecting lymph nodes along the surface of the pancreas. (3) The middle colon vessels: identifying the root of the middle colon vessel along the lower edge of the pancreas; avoiding entering behind the pancreas; mobilizing the transverse mesocolon sufficiently along the surface of the pancreas. Finally, we discuss and analyze the disputes currently existing in laparoscopic extended right hemicolectomy, including dissection of No.6 lymph nodes, naking the
SMA
and dissecting lymph nodes around the roots of the branches of
SMA
. This article shares our experience about laparoscopic extended right hemicolectomy, hoping that it could help beginners master the technique more safely and skillfully.
...
PMID:[Key vessels assessment and operation highlights in laparoscopic extended right hemicolectomy]. 2957 13
Introduction:
Laparoscopic pancreaticoduodendectomy is still rarely adopted due to its inherent complexity. We hereby present our experience of laparoscopic pancreaticoduodenectomy focused on technical notes. Technical description: A 5 trocars technique is used. Vision is provided by a 30 degree scope with 4K technology for the demolitive phase and 3D for the reconstructive phase. The right
colic
flexure is mobilized and an extensive Kocher maneuver is carried out exposing the inferior vena cava and left renal vein. The gastric antrum is resected with a mechanical stapler. The common hepatic artery is identified behind the superior pancreatic margin; lymphadenectomy of stations 7, 8, 9, 12 a and b is performed, until the gastroduodenal artery is cleared from the lymphatic tissue; a bull-dog clamp is placed to interrupt the arterial flow through the gastroduodenal artery, in order to exclude aberrant vascularization of the liver from the
SMA
. The common hepatic duct is transected just above the cystic duct. The pancreas is sectioned with monopolar energy, dividing the main pancreatic duct 2-3 mm distal to the parenchymal transection line with cold scissors, as to leave a stump that will facilitate the duct-to-mucosa anastomosis then the first jejunal loop is sectioned. A complete dissection of the mesopancreas is performed, moving from a caudal to cephalad fashion. Prior to perform the pancreatico-jejunal anastomosis, a fistula risk score based on pancreatic parenchymal texture, tumor type, Wirsung diameter, intraoperative blood loss is assessed. The pancreatico-jejunal anastomosis is carried out using prolene and pds sutures. The end-to-side hepaticojejunostomy is performed about 10 cm distant from the pancreaticojejunostomy. The side to- side gastrojejunostomy is performed using a 60 mm linear stapler. Conclusion: Laparoscopic pancreaticoduodenectomy is a demanding procedure affected by high morbidity rates. The standardization of the technique could lead the way to reduce such rates and favor its adoption.
...
PMID:Totally Laparoscopic Pancreaticoduodenectomy: Technical Notes. 3261 95
