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Multilayer capsules: a promising microencapsulation system for transplantation of pancreatic islets

Paper ID Volume ID Publish Year Pages File Format Full-Text
13815 913 1970 10 PDF Available
Title
Multilayer capsules: a promising microencapsulation system for transplantation of pancreatic islets
Abstract

In 1980, Lim and Sun introduced a microcapsule coated with an alginate/polylysine complex for encapsulation of pancreatic islets. Characteristic to this type of capsule is, that it consists of a plain membrane which is formed during a single procedural step. With such a simple process it is difficult to obtain instantly a membrane optimized with respect to all the properties requested for islet transplantation. To overcome these difficulties, it is recommended to build up the membrane in several consecutive steps, each optimized for a certain property. In this study, we have analysed such a multilayer microcapsule for the encapsulation of pancreatic islets. Therefore, empty and islet containing alginate beads were coated with alternating layers of polyethyleneimine, polyacrylacid or caboxymethylcellulose and alginate. By scanning electron microscopy the thickness of the covering multilayer-membrane was estimated to be less than 800 nm by comparison with an apparatus scale. Ellipsometric measurements showed that the membrane thickness is in the range of 145 nm. Neither the encapsulation procedure, nor the membrane-forming step did impede the stimulatory response of the islets. The encapsulation even lead to a significantly better stimulatory response of the encapsulated islets during week three and five of cell culture. Furthermore, the multilayer-membrane did not deteriorate the biocompatibility of the transplanted microcapsules, allowing an easy tuning of the molecular cut-off and the mechanical stability depending on the polycation–polyanion combination used. The multilayer membrane capsule has obvious advantages compared to a one-step encapsulation procedure. These beads guarantee a high biocompatibility, a precisely adjusted cut-off, an optimal insulin-response and high mechanical stability although the membrane is only 145 nm thick.

Keywords
Multilayer capsules; Membrane thickness; Mechanical stability; Permeability; Biocompatibility; Pancreatic islets
First Page Preview
Multilayer capsules: a promising microencapsulation system for transplantation of pancreatic islets
Publisher
Database: Elsevier - ScienceDirect
Journal: Biomaterials - Volume 22, Issue 14, 2001, Pages 1961–1970
Authors
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Subjects
Physical Sciences and Engineering Chemical Engineering Bioengineering