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1.
Rev. ciênc. farm. básica apl ; Rev. ciênc. farm. básica apl;26(1): 1-8, 2005. ilus
Article in English | LILACS | ID: lil-425717

ABSTRACT

Diabetes mellitus is a widespread disease whose frequency increases constantly and is expected to reach alarming levels by the year 2025. Introduction of insulin therapy represented a major breakthrough; however, a very strict regimen is required to maintain blood glucose levels within the normal range and to prevent or postpone chronic complications associated with this disease. Frequent hyper- and hypoglycemia seriously affect the quality of life of these patients. Reversion of this situation can only be achieved through whole organ (pancreas) transplant or pancreatic islet transplant, the former being a high-risk surgical procedure, while the latter is a much simpler and may be accomplished in only 20-40 min. The advantages and perspectives of islet cell transplantation will be discussed, in the light of tissue engineering and gene therapy. Ongoing research carried out in our laboratory, aimed at developing clinical cell and molecular therapy protocols for diabetes will also be focused


Subject(s)
Child , Adolescent , Adult , Humans , Male , Female , Cell- and Tissue-Based Therapy , Diabetes Mellitus/surgery , Diabetes Mellitus/therapy , Islets of Langerhans Transplantation , Pancreas Transplantation
3.
Rev. bras. pesqui. méd. biol ; Braz. j. med. biol. res;34(6): 691-7, Jun. 2001. ilus
Article in English | LILACS | ID: lil-285841

ABSTRACT

In the 70's, pancreatic islet transplantation arose as an attractive alternative to restore normoglycemia; however, the scarcity of donors and difficulties with allotransplants, even under immunosuppressive treatment, greatly hampered the use of this alternative. Several materials and devices have been developed to circumvent the problem of islet rejection by the recipient, but, so far, none has proved to be totally effective. A major barrier to transpose is the highly organized islet architecture and its physical and chemical setting in the pancreatic parenchyma. In order to tackle this problem, we assembled a multidisciplinary team that has been working towards setting up the Human Pancreatic Islets Unit at the Chemistry Institute of the University of São Paulo, to collect and process pancreas from human donors, upon consent, in order to produce purified, viable and functional islets to be used in transplants. Collaboration with the private enterprise has allowed access to the latest developed biomaterials for islet encapsulation and immunoisolation. Reasoning that the natural islet microenvironment should be mimicked for optimum viability and function, we set out to isolate extracellular matrix components from human pancreas, not only for analytical purposes, but also to be used as supplementary components of encapsulating materials. A protocol was designed to routinely culture different pancreatic tissues (islets, parenchyma and ducts) in the presence of several pancreatic extracellular matrix components and peptide growth factors to enrich the beta cell population in vitro before transplantation into patients. In addition to representing a therapeutic promise, this initiative is an example of productive partnership between the medical and scientific sectors of the university and private enterprises.


Subject(s)
Humans , Biomedical Engineering/methods , Diabetes Mellitus/surgery , Islets of Langerhans Transplantation/methods , Islets of Langerhans/physiology , Biocompatible Materials , Capsules , Culture Techniques/methods , Diabetes Mellitus, Type 1/surgery , Extracellular Matrix , Graft Survival , Islets of Langerhans/immunology
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