Investigating islet immunoisolation parameters using microfabricated membranes

T. A. Desai; D. J. Hansford; W. H. Chu; T. Huen; M. Ferrari

doi:10.1557/proc-530-7

Investigating islet immunoisolation parameters using microfabricated membranes

T. A. Desai, D. J. Hansford, W. H. Chu, T. Huen, M. Ferrari

Houston Methodist Hospital

Research output: Contribution to journal › Conference article › peer-review

7 Scopus citations

Abstract

The immunoisolation of xenogeneic hormone-secreting cells is a promising therapy for a wide variety of diseases including diabetes, Parkinson's, and hemophilia. By utilizing microfabrication technology, silicon biocapsules can be fabricated with membranes having precisely controlled and uniform pore sizes, allowing one to optimize parameters specifically for the encapsulation of specific hormone-secreting cell types. This study investigates immunoisolation parameters using microfabricated silicon-based membranes, with uniform membrane pore sizes in the tens of nanometer range. The permeability of IgG was studied in microfabricated biocapsules with various pore sized membranes. In addition, immunoisolative characteristics were monitored by assessing viability and functionality of islets within biocapsules.

Original language	English (US)
Pages (from-to)	7-12
Number of pages	6
Journal	Materials Research Society Symposium - Proceedings
Volume	530
DOIs	https://doi.org/10.1557/proc-530-7
State	Published - 1998
Event	Proceedings of the 1998 MRS Symposium - San Francisco, CA, USA Duration: Apr 13 1998 → Apr 14 1998

ASJC Scopus subject areas

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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title = "Investigating islet immunoisolation parameters using microfabricated membranes",

abstract = "The immunoisolation of xenogeneic hormone-secreting cells is a promising therapy for a wide variety of diseases including diabetes, Parkinson's, and hemophilia. By utilizing microfabrication technology, silicon biocapsules can be fabricated with membranes having precisely controlled and uniform pore sizes, allowing one to optimize parameters specifically for the encapsulation of specific hormone-secreting cell types. This study investigates immunoisolation parameters using microfabricated silicon-based membranes, with uniform membrane pore sizes in the tens of nanometer range. The permeability of IgG was studied in microfabricated biocapsules with various pore sized membranes. In addition, immunoisolative characteristics were monitored by assessing viability and functionality of islets within biocapsules.",

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T1 - Investigating islet immunoisolation parameters using microfabricated membranes

AU - Desai, T. A.

AU - Hansford, D. J.

AU - Chu, W. H.

AU - Huen, T.

AU - Ferrari, M.

PY - 1998

Y1 - 1998

N2 - The immunoisolation of xenogeneic hormone-secreting cells is a promising therapy for a wide variety of diseases including diabetes, Parkinson's, and hemophilia. By utilizing microfabrication technology, silicon biocapsules can be fabricated with membranes having precisely controlled and uniform pore sizes, allowing one to optimize parameters specifically for the encapsulation of specific hormone-secreting cell types. This study investigates immunoisolation parameters using microfabricated silicon-based membranes, with uniform membrane pore sizes in the tens of nanometer range. The permeability of IgG was studied in microfabricated biocapsules with various pore sized membranes. In addition, immunoisolative characteristics were monitored by assessing viability and functionality of islets within biocapsules.

AB - The immunoisolation of xenogeneic hormone-secreting cells is a promising therapy for a wide variety of diseases including diabetes, Parkinson's, and hemophilia. By utilizing microfabrication technology, silicon biocapsules can be fabricated with membranes having precisely controlled and uniform pore sizes, allowing one to optimize parameters specifically for the encapsulation of specific hormone-secreting cell types. This study investigates immunoisolation parameters using microfabricated silicon-based membranes, with uniform membrane pore sizes in the tens of nanometer range. The permeability of IgG was studied in microfabricated biocapsules with various pore sized membranes. In addition, immunoisolative characteristics were monitored by assessing viability and functionality of islets within biocapsules.

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AN - SCOPUS:0032313752

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EP - 12

JO - Materials Research Society Symposium - Proceedings

JF - Materials Research Society Symposium - Proceedings

T2 - Proceedings of the 1998 MRS Symposium

Y2 - 13 April 1998 through 14 April 1998

ER -

Investigating islet immunoisolation parameters using microfabricated membranes

Abstract

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