Experimental Correction and Treatment of Chronic Liver Failure Using Implantable Cell-Engineering Constructs of the Auxiliary Liver Based on a Bioactive Heterogeneous Biopolymer Hydrogel.
Murat Yu ShagidulinNina OnishchenkoVictor I SevastianovMichael E KrasheninnikovAleksey LyundupAlla NikolskayaAlena KryzhanovskayaSofia VoznesenskaiaMariia GorelovaNadezhda PerovaIgor KozlovArtem A VenediktovGennadii A PiavchenkoSergey GautierPublished in: Gels (Basel, Switzerland) (2023)
We found BMCG-derived CECs to be operational and active, with regenerative potential. Group 3 showed significant evidence of forced liver regeneration that tended to persist until the end of the study (day 90). The phenomenon is reflected by biochemical signs of hepatic functional recovery by day 30 after grafting (compared to Groups 1 and 2), whereas structural features of liver repair (necrosis prevention, missing formation of vacuoles, degenerating LC number decrease, and delay of hepatic fibrotic transformation). Such implantation of BMCG-derived CECs with allogeneic LCs and MMSC BM might represent a proper option to correct and treat CLF, as well as to maintain affected liver function in patients with liver grafting needed.