RESUMO
Background: The technique of pancreatoduodenectomy (PD) has evolved, andartery first’ approach was considered for the intraoperative early determinationof resectability for borderline resectable cases before the ‘point of no return’and avoidance of blood congestion resulted in the reduction of blood loss. Also,active application of energy device was useful for the reduced operative time andblood loss. Recently, 3D simulation for hepatobiliary pancreatic surgery has beenuseful and mandatory. In this presentation, we introduced our recent refinementsand advances for PD.‘Artery first’ approach and vessel sealing system for PD: ‘Artery first’ approachwere considered as six different methods as follows; 1) Superior approach, 2)Anterior approach, 3) Posterior approach, 4) Left posterior approach, 5) Right/medial uncinate approach and 6) Mesenteric approach. A while ago, wepreferably applied the mesenteric approach to PD, and also the combination ofthis approach with vessel sealing system (VSS) significantly reduced intraoperativeblood loss (Mesenteric approach with VSS, n=21 vs. non-‘Artery first’ approachwithout VSS, n=78; 320±174ml vs. 486±263ml, p<0.01).Modified de-rotation method as complete ‘Artery first’ approach: Most recently,for further refinement of operative procedure, we refined a right/medial uncinateand posterior approach as modified de-rotation method. Point of view in thismethod was the complete clockwise rotation of small intestinal mesenteryincluding ascending colon, in order to linearize from duodenum to jejunumand look at the direct front of superior mesenteric artery (SMA), vein (SMV) andsome branched jejunal vessels originated from SMA and SMV (Fig.). Thereby, inthe posterior view, the easy dissection of all pancreatic branch originated fromSMA can be done. This modified de-rotation method was possible to achieve thecomplete ‘Artery first’ approach.Preoperative 3D simulation of arterial and venous anatomy:Until now, we applied 3D volumetery software (SYNAPSE VINCENT®) aspreoperative simulation for hepatic resection. And recently, for evaluation of theposition relationship between arteries and veins surround pancreas head, weadopted this software before PD. As first step, arteries and veins are automaticallyidentified, and small vessels are manually traced on the axial CT view. Afterthat, 3D arterial and venous simulations are combined. Grasp of detailed vesselanatomy and its relationship using preoperative 3D simulation enable to safelyperform PD, even in young surgeons (operative time; young 512±49 vs. senior445±41 min, p<0.01), (blood loss; young 353±203 vs. senior 246±109 ml,p=0.16).Conclusion: Those refinements and advances are possible to safely and easilyperform pancreatoduodenectomy.
RESUMO
Background: The technique of pancreatoduodenectomy (PD) has evolved, and artery first’ approach was considered for the intraoperative early determination of resectability for borderline resectable cases before the ‘point of no return’ and avoidance of blood congestion resulted in the reduction of blood loss. Also, active application of energy device was useful for the reduced operative time and blood loss. Recently, 3D simulation for hepatobiliary pancreatic surgery has been useful and mandatory. In this presentation, we introduced our recent refinements and advances for PD. ‘Artery first’ approach and vessel sealing system for PD: ‘Artery first’ approach were considered as six different methods as follows; 1) Superior approach, 2) Anterior approach, 3) Posterior approach, 4) Left posterior approach, 5) Right/ medial uncinate approach and 6) Mesenteric approach. A while ago, we preferably applied the mesenteric approach to PD, and also the combination of this approach with vessel sealing system (VSS) significantly reduced intraoperative blood loss (Mesenteric approach with VSS, n=21 vs. non-‘Artery first’ approach without VSS, n=78; 320±174ml vs. 486±263ml, p<0.01). Modified de-rotation method as complete ‘Artery first’ approach: Most recently, for further refinement of operative procedure, we refined a right/medial uncinate and posterior approach as modified de-rotation method. Point of view in this method was the complete clockwise rotation of small intestinal mesentery including ascending colon, in order to linearize from duodenum to jejunum and look at the direct front of superior mesenteric artery (SMA), vein (SMV) and some branched jejunal vessels originated from SMA and SMV (Fig.). Thereby, in the posterior view, the easy dissection of all pancreatic branch originated from SMA can be done. This modified de-rotation method was possible to achieve the complete ‘Artery first’ approach. Preoperative 3D simulation of arterial and venous anatomy: Until now, we applied 3D volumetery software (SYNAPSE VINCENT®) as preoperative simulation for hepatic resection. And recently, for evaluation of the position relationship between arteries and veins surround pancreas head, we adopted this software before PD. As first step, arteries and veins are automatically identified, and small vessels are manually traced on the axial CT view. After that, 3D arterial and venous simulations are combined. Grasp of detailed vessel anatomy and its relationship using preoperative 3D simulation enable to safely perform PD, even in young surgeons (operative time; young 512±49 vs. senior 445±41 min, p<0.01), (blood loss; young 353±203 vs. senior 246±109 ml, p=0.16). Conclusion: Those refinements and advances are possible to safely and easily perform pancreatoduodenectomy.