A Collagen Based Cryogel Bioscaffold that Generates Oxygen for Islet Transplantation.
Bioscaffold
Islet Transplantation
Oxygen
Type 1 Diabetes
Journal
Advanced functional materials
ISSN: 1616-301X
Titre abrégé: Adv Funct Mater
Pays: Germany
ID NLM: 101190390
Informations de publication
Date de publication:
14 Apr 2020
14 Apr 2020
Historique:
entrez:
19
10
2020
pubmed:
20
10
2020
medline:
20
10
2020
Statut:
ppublish
Résumé
The aim of this work was to develop, characterize and test a novel 3D bioscaffold matrix which can accommodate pancreatic islets and provide them with a continuous, controlled and steady source of oxygen to prevent hypoxia-induced damage following transplantation. Hence, we made a collagen based cryogel bioscaffold which incorporated calcium peroxide (CPO) into its matrix. The optimal concentration of CPO integrated into bioscaffolds was 0.25wt.% and this generated oxygen at 0.21±0.02mM/day (day 1), 0.19±0.01mM/day (day 6), 0.13±0.03mM/day (day 14), and 0.14±0.02mM/day (day 21). Accordingly, islets seeded into cryogel-CPO bioscaffolds had a significantly higher viability and function compared to islets seeded into cryogel alone bioscaffolds or islets cultured alone on traditional cell culture plates; these findings were supported by data from quantitative computational modelling. When syngeneic islets were transplanted into the epididymal fat pad (EFP) of diabetic mice, our cryogel-0.25wt.%CPO bioscaffold improved islet function with diabetic animals re-establishing glycemic control. Mice transplanted with cryogel-0.25wt.%CPO bioscaffolds showed faster responses to intraperitoneal glucose injections and had a higher level of insulin content in their EFP compared to those transplanted with islets alone (P<0.05). Biodegradability studies predicted that our cryogel-CPO bioscaffolds will have long-lasting biostability for approximately 5 years (biodegradation rate: 16.00±0.65%/year). Long term implantation studies (i.e. 6 months) showed that our cryogel-CPO bioscaffold is biocompatible and integrated into the surrounding fat tissue with minimal adverse tissue reaction; this was further supported by no change in blood parameters (i.e. electrolyte, metabolic, chemistry and liver panels). Our novel oxygen-generating bioscaffold (i.e. cryogel-0.25wt.%CPO) therefore provides a biostable and biocompatible 3D microenvironment for islets which can facilitate islet survival and function at extra-hepatic sites of transplantation.
Identifiants
pubmed: 33071709
doi: 10.1002/adfm.201902463
pmc: PMC7567341
mid: NIHMS1624845
pii:
doi:
Types de publication
Journal Article
Langues
eng
Subventions
Organisme : NIDDK NIH HHS
ID : P30 DK116074
Pays : United States
Organisme : NIDDK NIH HHS
ID : R01 DK119293
Pays : United States
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