TY - JOUR
T1 - Pig pancreas anatomy
T2 - Implications for pancreas procurement, preservation, and islet isolation
AU - Ferrer, Joana
AU - Scott, William E.
AU - Weegman, Bradley P.
AU - Suszynski, Thomas M.
AU - Sutherland, David E.R.
AU - Hering, Bernhard J.
AU - Papas, Klearchos K.
PY - 2008/12/15
Y1 - 2008/12/15
N2 - BACKGROUND.: Islet transplantation is emerging as a treatment option for selected patients with type 1 diabetes. The limited human islet supply from cadavers and poor islet yield and quality remain substantial impediments to progress in the field. Use of porcine islets holds great promise for large-scale application of islet transplantation. Consistent isolation of porcine islets is dependent on advances in pancreas procurement, pancreas preservation, and islet isolation, requiring detailed knowledge of the porcine pancreatic anatomy. The primary aim of this study was to describe the vascular and ductal anatomy of the porcine pancreas to guide and improve organ preservation and enzyme perfusion. METHODS.: Pancreata were removed by en bloc viscerectomy from 65 female Landrace pigs. RESULTS.: Fifteen percentage of organs exhibited inconsistent vascular branching from the celiac trunk. All organs showed uniform patterns of branching at the superior mesenteric artery. The superior and inferior mesenteric veins merged to become the portal vein in all but one case in which the inferior mesenteric vein drained into the splenic vein. Ninety-seven percent of pancreata had three lobes: duodenal lobe (DL), connecting lobe (CL), and splenic lobe (SL); 39% demonstrated ductal communication between the CL and the other two lobes; 50% had ductal communication only between the CL and duodenal lobe; and 11% presented other types of ductal delineation. CONCLUSIONS.: Accounting for the variations in vascular and ductal anatomy, as detailed in this study, will facilitate development of protocols for preservation, optimal enzyme administration, and pancreas distention and digestion, and will ultimately lead to substantial improvements in isolation outcomes.
AB - BACKGROUND.: Islet transplantation is emerging as a treatment option for selected patients with type 1 diabetes. The limited human islet supply from cadavers and poor islet yield and quality remain substantial impediments to progress in the field. Use of porcine islets holds great promise for large-scale application of islet transplantation. Consistent isolation of porcine islets is dependent on advances in pancreas procurement, pancreas preservation, and islet isolation, requiring detailed knowledge of the porcine pancreatic anatomy. The primary aim of this study was to describe the vascular and ductal anatomy of the porcine pancreas to guide and improve organ preservation and enzyme perfusion. METHODS.: Pancreata were removed by en bloc viscerectomy from 65 female Landrace pigs. RESULTS.: Fifteen percentage of organs exhibited inconsistent vascular branching from the celiac trunk. All organs showed uniform patterns of branching at the superior mesenteric artery. The superior and inferior mesenteric veins merged to become the portal vein in all but one case in which the inferior mesenteric vein drained into the splenic vein. Ninety-seven percent of pancreata had three lobes: duodenal lobe (DL), connecting lobe (CL), and splenic lobe (SL); 39% demonstrated ductal communication between the CL and the other two lobes; 50% had ductal communication only between the CL and duodenal lobe; and 11% presented other types of ductal delineation. CONCLUSIONS.: Accounting for the variations in vascular and ductal anatomy, as detailed in this study, will facilitate development of protocols for preservation, optimal enzyme administration, and pancreas distention and digestion, and will ultimately lead to substantial improvements in isolation outcomes.
KW - Pancreatic islet transplantation
KW - Porcine pancreas anatomy
KW - Surgical diabetes management
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U2 - 10.1097/TP.0b013e31818bfda1
DO - 10.1097/TP.0b013e31818bfda1
M3 - Article
C2 - 19077881
AN - SCOPUS:58149355302
SN - 0041-1337
VL - 86
SP - 1503
EP - 1510
JO - Transplantation
JF - Transplantation
IS - 11
ER -