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In situ formation and collagen-alginate composite encapsulation of pancreatic islet spheroids

Authors
Lee, Bo RamHwang, Jin WookChoi, Yoon YoungWong, Sau FungHwang, Yong HwaLee, Dong YunLee, Sang-Hoon
Issue Date
1월-2012
Publisher
ELSEVIER SCI LTD
Keywords
Islet spheroids; Collagen-alginate composite (CAC) encapsulation; Concave microwell array; Type-1 diabetes mellitus (T1DM); Xenogenic transplantation; Glucose control
Citation
BIOMATERIALS, v.33, no.3, pp.837 - 845
Indexed
SCIE
SCOPUS
Journal Title
BIOMATERIALS
Volume
33
Number
3
Start Page
837
End Page
845
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/109241
DOI
10.1016/j.biomaterials.2011.10.014
ISSN
0142-9612
Abstract
In this study, we suggest in situ islet spheroid formation and encapsulation on a single platform without replating as a method for producing mono-disperse spheroids and minimizing damage to spheroids during encapsulation. Using this approach, the size of spheroid can be controlled by modulating the size of the concave well. Here, we used 300 mu m concave wells to reduce spheroid size and thereby eliminating the central necrosis caused by large volume. As the encapsulation material, we used alginate and collagen-alginate composite (CAC), and evaluated their suitability through diverse in vitro tests, including measurements of viability, oxygen consumption rate (OCR), hypoxic damage to encapsulated spheroids, and insulin secretion. For in situ encapsulation, alginate or CAC was spread over a concave microwell array containing spheroids, and CaCl(2) solution was diffused through a nano-porous dialysis membrane to achieve uniform polymerization, forming convex structures. By this process, the formation of uniform-size islet spheroids and their encapsulation without an intervening replating step was successfully performed. As a control, intact islets were evaluated concurrently. The in vitro test demonstrated excellent performance of CAC-encapsulated spheroids, and on the basis of these results, we transplanted the islet spheroids-encapsulated with CAC into the intraperitoneal cavity of mice with induced diabetes for 4 weeks, and evaluated subsequent glucose control. Intact islets were also transplanted as control to investigate the effect of encapsulation. Transplanted CAC-encapsulated islet spheroids maintained glucose levels below 200 mg/dL for 4 weeks, at which they were still active. At the end of the implantation experiment, we carried out intraperitoneal glucose tolerance test (IPGTT) in mice to investigate whether the implanted islets remained responsive to glucose. The glucose level in mice with CAC-encapsulated islet spheroids dropped below 200 mg/dL 60 min after glucose injection and was stably maintained. In conclusion, the proposed encapsulation method enhances the viability and function of islet spheroids, and protects these spheroids from immune attack. (C) 2011 Elsevier Ltd. All rights reserved.
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