Islet transplantation in rodents. Do encapsulated islets really work?

Diabetes mellitus type I affects around 240 million people in the world and only in the USA 7.8% of the population. It has been estimated that the costs of its complications account for 5% to 10% of the total healthcare spending around the world. According to World Health Organization, 300 million p...

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Published in:Arquivos de gastroenterologia 2011-06, Vol.48 (2), p.146-152
Main Authors: Souza, Yngrid Ellyn Dias Maciel de, Chaib, Eleazar, Lacerda, Patricia Graça de de, Crescenzi, Alessandra, Bernal-Filho, Arnaldo, D'Albuquerque, Luiz Augusto Carneiro
Format: Article
Language:English
Subjects:
Animals
Diabetes mellitus tipo I
Diabetes Mellitus, Type 1 - surgery
GASTROENTEROLOGY & HEPATOLOGY
Graft Rejection - prevention & control
Islets of Langerhans Transplantation - methods
Rodentia
Roedores
Transplante das ilhotas pancreáticas
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Summary:Diabetes mellitus type I affects around 240 million people in the world and only in the USA 7.8% of the population. It has been estimated that the costs of its complications account for 5% to 10% of the total healthcare spending around the world. According to World Health Organization, 300 million people are expected to develop diabetes mellitus by the year 2025. The pancreatic islet transplantation is expected to be less invasive than a pancreas transplant, which is currently the most commonly used approach. To compare the encapsulated and free islet transplantation in rodents looking at sites of islet implantation, number of injected islets, viability and immunosuppression. A literature search was conducted using MEDLINE/PUBMED and SCIELO with terms about islet transplantation in the rodent from 2000 to 2010. We found 2,636 articles but only 56 articles from 2000 to 2010 were selected. In these 56 articles used, 34% were encapsulated and 66% were nonencapsulated islets. Analyzing both types of islets transplantation, the majority of the encapsulated islets were implanted into the peritoneal cavity and the nonencapsulated islets into the liver, through the portal vein. In addition, the great advantage of the peritoneal cavity as the site of islet transplantation is its blood supply. Both vascular endothelial cells and vascular endothelial growth factor were used to stimulate angiogenesis of the islet grafts, increasing the vascularization rapidly after implantation. It also has been proven that there is influence of the capsules, since the larger the capsule more chances there are of central necrosis. In some articles, the use of immunosuppression demonstrated to increase the life expectancy of the graft. While significant progress has been made in the islets transplantation field, many obstacles remain to be overcome. Microencapsulation provides a means to transplant islets without immunosuppressive agents and may enable the performance of xenotransplantation. The use of alternative donor sources, fewer islets per capsule and the appropriate deployment location, such as the peritoneal cavity, may give a future perspective to the application of immunoprotective capsules and viability in clinical practice. A variety of strategies, such as genetic engineering, co-encapsulation, improvement in oxygen supply or the establishment of hypoxia resistance will also improve the islet transplantation performance. It remains to be determined which combination of stra
ISSN:0004-2803
1678-4219
1678-4219
0004-2803
DOI:10.1590/S0004-28032011000200011