One approach that researchers have been exploring to treat type 1 diabetes is cell therapy. By introducing new insulin-producing beta cells or other types of cells, scientists strive to support the body in once again producing its own insulin. A common challenge with this technique is that it often has limited results as the body once again attacks the cells, or they slowly lose function on their own. In addition, cell therapy typically requires immune suppression which can put individuals at risk for other complications.
However, in a recent study, researchers tested a new method of transplanting therapeutic cells by using a retrievable device with a silicone reservoir. The cells are further protected by a porous polymeric membrane that allows macrophages to enter the device without destroying the transplanted cells, or that prevents them from entering at all.
When tested in immunocompetent mice, the device supported normoglycemia for more than 75 days without the need for immunosuppression. The transplanted cells were able to effectively produce erythropoietin, which in turn improves oxygen supply to the body, and also generates insulin to manage blood sugar levels.
This is a notable step forward in improving cell therapy for the treatment of type 1 diabetes. More research and testing are required to determine how this process translates into human models. Researchers have been trying to limit or eliminate the need for immune suppression while transplanting healthy pancreatic, islet, and stem cells into the body to control blood glucose levels.
Dan Anderson, Ph.D., a member of the Diabetes Research Connection (DRC) Scientific Review Committee, is the senior author of the article published regarding these findings. DRC is excited to see where these advances may lead and what it could mean for the future of cell transplantation techniques and cell therapy for type 1 diabetes. The organization provides critical funding for a wide range of projects related to improving diagnosis, treatment, and prevention of the disease.
The source: https://diabetesresearchconnection.org