Microwell scaffolds for the extrahepatic transplantation of islets of langerhans

M. Buitinga, R. Truckenmuller, M.A. Engelse, L. Moroni, H.W. Ten Hoopen, C.A. van Blitterswijk, E.J. de Koning, A.A. van Apeldoorn, M. Karperien

Research output: Contribution to journal/periodicalArticleScientificpeer-review

50 Citations (Scopus)


Allogeneic islet transplantation into the liver has the potential to restore normoglycemia in patients with type 1 diabetes. However, the suboptimal microenvironment for islets in the liver is likely to be involved in the progressive islet dysfunction that is often observed post-transplantation. This study validates a novel microwell scaffold platform to be used for the extrahepatic transplantation of islet of Langerhans. Scaffolds were fabricated from either a thin polymer film or an electrospun mesh of poly(ethylene oxide terephthalate)-poly(butylene terephthalate) (PEOT/PBT) block copolymer (composition: 4000PEOT30PBT70) and were imprinted with microwells, approximately 400 microm in diameter and approximately 350 microm in depth. The water contact angle and water uptake were 39+/-2 degrees and 52.1+/-4.0 wt%, respectively. The glucose flux through electrospun scaffolds was three times higher than for thin film scaffolds, indicating enhanced nutrient diffusion. Human islets cultured in microwell scaffolds for seven days showed insulin release and insulin content comparable to those of free-floating control islets. Islet morphology and insulin and glucagon expression were maintained during culture in the microwell scaffolds. Our results indicate that the microwell scaffold platform prevents islet aggregation by confinement of individual islets in separate microwells, preserves the islet's native rounded morphology, and provides a protective environment without impairing islet functionality, making it a promising platform for use in extrahepatic islet transplantation.
Original languageEnglish
Pages (from-to)64772
JournalPLoS One
Issue number5
Publication statusPublished - 2013


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