Mattia Pasqua scite author profile

In liver tissue engineering, cell culture in spheroids is now well recognized to promote the maintenance of hepatic functions. However, the process leading to spheroids formation is time consuming, costly, and not easy to scale-up for further use in human bioartificial liver (BAL) applications. In this study, we encapsulated HepaRG cells (precursors of hepatocyte-like cells) in alginate 1.5% without pre-forming spheroids. Starting from a given hepatic biomass, we analysed cell differentiation and metabolic performance for further use in fluidized-bed BAL. We observed that cells rearranged as aggregates into the beads and adequately differentiated over time, in the absence of any differentiating factors classically used. At day 14 post-encapsulation, cells displayed a

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Bioengineering Organs for Blood Detoxification

Legallais

Kim

Mihaila

et al. 2018

Adv Healthcare Materials

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For patients with severe kidney or liver failure the best solution is currently organ transplantation. However, not all patients are eligible for transplantation and due to limited organ availability, most patients are currently treated with therapies using artificial kidney and artificial liver devices. These therapies, despite their relative success in preserving the patients' life, have important limitations since they can only replace part of the natural kidney or liver functions. As blood detoxification (and other functions) in these highly perfused organs is achieved by specialized cells, it seems relevant to review the approaches leading to bioengineered organs fulfilling most of the native organ functions. There, the culture of cells of specific phenotypes on adapted scaffolds that can be perfused takes place. In this review paper, first the functions of kidney and liver organs are briefly described. Then artificial kidney/liver devices, bioartificial kidney devices, and bioartificial liver devices are focused on, as well as biohybrid constructs obtained by decellularization and recellularization of animal organs. For all organs, a thorough overview of the literature is given and the perspectives for their application in the clinic are discussed.

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Adhesive coatings based on melanin-like nanoparticles for surgical membranes

Scognamiglio

Travan

Turco

et al. 2017

Colloids and Surfaces B: Biointerfaces

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Mattia Pasqua

HepaRG Self-Assembled Spheroids in Alginate Beads Meet the Clinical Needs for Bioartificial Liver

Bioengineering Organs for Blood Detoxification

Adhesive coatings based on melanin-like nanoparticles for surgical membranes

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