Microencapsulation of Islets of Langerhans via selective withdrawal to achieve immunoisolation
Abstract
Cohen phet al. [1] described how the selective-withdrawal geometry may be used to microencapsulate particles in thin coats whose thickness is independent of the size of the encapsulated particle. We have applied a modified version of this geometry to the microencapsulation of Islets of Langerhans for the purpose of immunoisolation. The Islets are initially placed in a polymer-containing aqueous solution which is then drawn up into a selective-withdrawal spout. As that spout breaks up, it leaves the Islets coated with the polymer solution. These coats are then photo-crosslinked leaving the Islets encapsulated in a hydrogel coating. This coating provides a semi-permeable membrane which allows for the diffusion of small molecules such as nutrients, glucose, and insulin, but which excludes larger proteins such as antibodies. If one can successfully microencapsulate 10^6 islets in uniform coats such as these, then one may transplant Islets without immuno-suppression as a treatment for Type-I Diabetes. We will discuss preliminary phin vitro results. [1] I. Cohen, H. Li, J. L. Hougland, M. Mrksich, and S. R. Nagel Science 292, 265-267 (2001).
- Publication:
-
APS March Meeting Abstracts
- Pub Date:
- March 2004
- Bibcode:
- 2004APS..MAR.W9008W