Abstract

PURPOSE
For a successful partial liver resection, familiarity with the many anatomical variations of the biliary and vascular components in the liver is important. The aim of this study was to fabricate a precisely reproduced model of a human hepatic vascular cast with a very fine structure using elastomeric nanocomposites. METHODS: A model of the vascular structure of the human liver was prepared by injecting elastomeric nanocomposites latex into that of a human liver obtained from a cadaver dissection, followed by cross-linking of the elastomeric nanocomposites, and then leaching out the human tissues using a strong acid solution. RESULTS: A produced new version of human vascular casts, with further improved performances in both the stability and mechanical property, was successfully produced by application of new elastomer nanocomposites techniques based on clay nano particles. The cast showed a much finer vascular structure and lasted longer. This new technique is expected to provide a useful protocol for the investigating of the real vascular structure of the human liver. CONCLUSION: A precisely reproduced vascular cast of the human liver will significantly help to solve surgical complications, such as hepatic congestion-induced vascular injury and bile leakage, and give a more precise simulation for anatomical hepatic resection.