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Chinese Journal of Hepatobiliary Surgery ; (12): 691-694, 2015.
Artigo em Chinês | WPRIM | ID: wpr-481040

RESUMO

Objective To invent a set of novel veno-venous bypass (VVB) device based on magnetic anastomosis technique which can be used in ex situ liver resection, and verify its clinical value and performance in animal models.Methods Each VVB device was constructed using three magnetic rings and an inverted Y-shaped tube with magnetic rings on each end.The magnetic ring was made of NdFeB with electrode cutting, and the tube was made of polyvinyl chloride (PVC) and preconditioned with heparin coating on the surface of the lumen.Ten dogs underwent the ex situ liver resection, and VVB was established via magnetic anastomosis technique with the novel VVB device during the operation.The time for completing VVB was recorded, and the hemodynamic indexes including the venous flow velocity, carotid pressure, central venous pressure and portal pressure was detected.The changes of intestinal lumen and kidney were also observed.Results It only took 6 ~ 10 minutes to establish VVB by the novel VVB device in the operation,and the hemodynamics stability was maintained smoothly during the anheptic phase.The shunt index of inferior vena cava and portal vein was 76.2% and 75.5%, respectively.The congestion of intestinal canal and kidney were also alleviated during the anheptic phase.Conclusions It could reduce the time to establish VVB with magnetic anastomosis technique in ex situ liver resection.This study showed that utilizing the novel VVB device for intraabdominal VVB during the anheptic phase could be helpful to maintain the hemodynamics stability.

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