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Mold-casted non-degradable, islet macro-encapsulating hydrogel devices for restoration of normoglycemia in diabetic mice.

Publication ,  Journal Article
Rios, PD; Zhang, X; Luo, X; Shea, LD
Published in: Biotechnol Bioeng
November 2016

Islet transplantation is a potential cure for diabetic patients, however this procedure is not widely adopted due to the high rate of graft failure. Islet encapsulation within hydrogels is employed to provide a three-dimensional microenvironment conducive to survival of transplanted islets to extend graft function. Herein, we present a novel macroencapsulation device, composed of PEG hydrogel, that combines encapsulation with lithography techniques to generate polydimethylsiloxane (PDMS) molds. PEG solutions are mixed with islets, which are then cast into PDMS molds for subsequent crosslinking. The molds can also be employed to provide complex architectures, such as microchannels that may allow vascular ingrowth through pre-defined regions of the hydrogel. PDMS molds allowed for the formation of stable gels with encapsulation of islets, and in complex architectures. Hydrogel devices with a thickness of 600 μm containing 500 islets promoted normoglycemia within 12 days following transplantation into the epididymal fat pad, which was sustained over the two-month period of study until removal of the device. The inclusion of microchannels, which had a similar minimum distance between islets and the hydrogel surface, similarly promoted normoglycemia. A glucose challenge test indicated hydrogel devices achieved normoglycemia 90 min post-dextrose injections, similar to control mice with native pancreata. Histochemical staining revealed that transplanted islets, identified as insulin positive, were viable and isolated from host tissue at 8 weeks post-transplantation, yet devices with microchannels had tissue and vascular ingrowth within the channels. Taken together, these results demonstrate a system for creating non-degradable hydrogels with complex geometries for encapsulating islets capable of restoring normoglycemia, which may expand islet transplantation as a treatment option for diabetic patients. Biotechnol. Bioeng. 2016;113: 2485-2495. © 2016 Wiley Periodicals, Inc.

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Published In

Biotechnol Bioeng

DOI

EISSN

1097-0290

Publication Date

November 2016

Volume

113

Issue

11

Start / End Page

2485 / 2495

Location

United States

Related Subject Headings

  • Treatment Outcome
  • Mice, Inbred C57BL
  • Mice
  • Male
  • Islets of Langerhans Transplantation
  • Islets of Langerhans
  • Hydrogels
  • Equipment Failure Analysis
  • Equipment Design
  • Diabetes Mellitus
 

Citation

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Rios, P. D., Zhang, X., Luo, X., & Shea, L. D. (2016). Mold-casted non-degradable, islet macro-encapsulating hydrogel devices for restoration of normoglycemia in diabetic mice. Biotechnol Bioeng, 113(11), 2485–2495. https://doi.org/10.1002/bit.26005
Rios, Peter Daniel, Xiaomin Zhang, Xunrong Luo, and Lonnie D. Shea. “Mold-casted non-degradable, islet macro-encapsulating hydrogel devices for restoration of normoglycemia in diabetic mice.Biotechnol Bioeng 113, no. 11 (November 2016): 2485–95. https://doi.org/10.1002/bit.26005.
Rios PD, Zhang X, Luo X, Shea LD. Mold-casted non-degradable, islet macro-encapsulating hydrogel devices for restoration of normoglycemia in diabetic mice. Biotechnol Bioeng. 2016 Nov;113(11):2485–95.
Rios, Peter Daniel, et al. “Mold-casted non-degradable, islet macro-encapsulating hydrogel devices for restoration of normoglycemia in diabetic mice.Biotechnol Bioeng, vol. 113, no. 11, Nov. 2016, pp. 2485–95. Pubmed, doi:10.1002/bit.26005.
Rios PD, Zhang X, Luo X, Shea LD. Mold-casted non-degradable, islet macro-encapsulating hydrogel devices for restoration of normoglycemia in diabetic mice. Biotechnol Bioeng. 2016 Nov;113(11):2485–2495.
Journal cover image

Published In

Biotechnol Bioeng

DOI

EISSN

1097-0290

Publication Date

November 2016

Volume

113

Issue

11

Start / End Page

2485 / 2495

Location

United States

Related Subject Headings

  • Treatment Outcome
  • Mice, Inbred C57BL
  • Mice
  • Male
  • Islets of Langerhans Transplantation
  • Islets of Langerhans
  • Hydrogels
  • Equipment Failure Analysis
  • Equipment Design
  • Diabetes Mellitus