1. Superporous agarose scaffolds for encapsulation of adult human islets and human stem-cell-derived β cells for intravascular bioartificial pancreas applications.
- Author
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Shaheen R, Gurlin RE, Gologorsky R, Blaha C, Munnangi P, Santandreu A, Torres A, Carnese P, Nair GG, Szot G, Fissell WH, Hebrok M, and Roy S
- Subjects
- Adult, Diabetes Mellitus, Type 1 therapy, Glucose pharmacology, Graft vs Host Disease prevention & control, Humans, Islets of Langerhans Transplantation, Membranes, Artificial, Nanopores, Silicon, Insulin-Secreting Cells drug effects, Insulin-Secreting Cells metabolism, Islets of Langerhans drug effects, Islets of Langerhans metabolism, Pancreas, Artificial, Sepharose chemistry, Stem Cell Transplantation methods, Tissue Scaffolds
- Abstract
Type 1 diabetic patients with severe hypoglycemia unawareness have benefitted from cellular therapies, such as pancreas or islet transplantation; however, donor shortage and the need for immunosuppression limits widespread clinical application. We previously developed an intravascular bioartificial pancreas (iBAP) using silicon nanopore membranes (SNM) for immunoprotection. To ensure ample nutrient delivery, the iBAP will need a cell scaffold with high hydraulic permeability to provide mechanical support and maintain islet viability and function. Here, we examine the feasibility of superporous agarose (SPA) as a potential cell scaffold in the iBAP. SPA exhibits 66-fold greater hydraulic permeability than the SNM along with a short (<10 μm) diffusion distance to the nearest islet. SPA also supports short-term functionality of both encapsulated human islets and stem-cell-derived enriched β-clusters in a convection-based system, demonstrated by high viability (>95%) and biphasic insulin responses to dynamic glucose stimulus. These findings suggest that the SPA scaffold will not limit nutrient delivery in a convection-based bioartificial pancreas and merits continued investigation., (© 2021 Wiley Periodicals LLC.)
- Published
- 2021
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