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A bioinspired scaffold for rapid oxygenation of cell encapsulation systems

Long‐Hai Wang, Alexander U. Ernst, Duo An, Ashim K. Datta, Boris Epel, Mrignayani Kotecha, Minglin Ma

2021Nature Communications82 citationsDOIOpen Access PDF

Abstract

Abstract Inadequate oxygenation is a major challenge in cell encapsulation, a therapy which holds potential to treat many diseases including type I diabetes. In such systems, cellular oxygen (O 2 ) delivery is limited to slow passive diffusion from transplantation sites through the poorly O 2 -soluble encapsulating matrix, usually a hydrogel. This constrains the maximum permitted distance between the encapsulated cells and host site to within a few hundred micrometers to ensure cellular function. Inspired by the natural gas-phase tracheal O 2 delivery system of insects, we present herein the design of a biomimetic scaffold featuring internal continuous air channels endowed with 10,000-fold higher O 2 diffusivity than hydrogels. We incorporate the scaffold into a bulk hydrogel containing cells, which facilitates rapid O 2 transport through the whole system to cells several millimeters away from the device-host boundary. A computational model, validated by in vitro analysis, predicts that cells and islets maintain high viability even in a thick (6.6 mm) device. Finally, the therapeutic potential of the device is demonstrated through the correction of diabetes in immunocompetent mice using rat islets for over 6 months.

Topics & Concepts

ScaffoldSelf-healing hydrogelsCell encapsulationTransplantationIsletBiophysicsOxygenationMaterials scienceNanotechnologyChemistryBiomedical engineeringInsulinBiologyMedicineEcologyPolymer chemistrySurgeryEndocrinologyPancreatic function and diabetesTissue Engineering and Regenerative MedicineElectrospun Nanofibers in Biomedical Applications
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