Dipen Vyas scite author profile

As a result of significant progress made in the last years in developing methods of whole organ decellularization techniques, organ bioengineering may now look more feasible than ever before. In this chapter, we describe in detail the necessary steps in human liver bioengineering. These include ferret liver decellularization by detergent perfusion, human liver progenitor and endothelial cell isolation, and finally, liver bioscaffold recellularization in a perfusion bioreactor.

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Fluid Flow Regulation of Revascularization and Cellular Organization in a Bioengineered Liver Platform

Baptista

Moran

Vyas

et al. 2016

Tissue Engineering Part C: Methods

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Overall, we were able to unveil the potential central role of discrete mechanical stimulation through the NO pathway in the revascularization and cellular organization of a bioengineered liver. Last, we propose that this organ bioengineering platform can contribute significantly to the identification of physiological mechanisms of liver organogenesis and regeneration and improve our ability to bioengineer livers for transplantation.

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Dipen Vyas

Self‐assembled liver organoids recapitulate hepatobiliary organogenesis in vitro

Human Liver Bioengineering Using a Whole Liver Decellularized Bioscaffold

Fluid Flow Regulation of Revascularization and Cellular Organization in a Bioengineered Liver Platform

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