Abstract

Decellularized biological scaffolds represent a promising solution for tissue engineering. They offer a good substrate for cells in terms of biochemical composition, ultrastructure and mechanical properties without generating an immunogenic response. The aim of this study was to design and develop a device for the automatic decellularization of biological tissues to overcome manual operation limits, toward a good manufacturing practice-compliant process. A versatile, modular and easy-to-use device was designed, able to automatically exchange decellularization fluids and to provide mechanical shaking according to a user-defined protocol. Preliminary decellularization tests were made on porcine abdominal aortas comparing results between conventional process and device-operated process using water, sodium deoxycholate and DNase. Vessels were processed up to 4 cycles of the protocol and after each decellularization cycle histological analyses (hematoxylin-eosin, Movat pentachrome and DAPI stainings) were observed. Preliminary mechanical tests were also performed to compare the mechanical behavior of blood vessels processed with the 2 methods mentioned above. Briefly, the device consists of decellularization chambers, a shaking system and hydraulic modules for the exchange of fluids. The device was bench-tested for functionality and reliability with positive outcomes. The protocol used revealed to be effective, with a progressive tissue decellularization through repeated cycles. No difference between manual and automated operation was observed in histological or mechanical analyses. The developed device is able to automate the decellularization process lowering operator-related risks, and is a reliable and functional tool for clinical use.

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