Publications by authors named "Anthony W Frei"
Allogeneic islet transplantation is a promising cell-based therapy for Type 1 Diabetes (T1D). The long-term efficacy of this approach, however, is impaired by allorejection. Current clinical practice relies on long-term systemic immunosuppression, leading to severe adverse events.
View Article and Find Full Text PDFThe curative potential of non-autologous cellular therapy is hindered by the requirement of anti-rejection therapy. Cellular encapsulation within nondegradable biomaterials has the potential to inhibit immune rejection, but the efficacy of this approach in robust preclinical and clinical models remains poor. While the responses of innate immune cells to the encapsulating material have been characterized, little attention has been paid to the contributions of adaptive immunity in encapsulated graft destabilization.
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- Local delivery of a medicine called fingolimod may help improve islet transplantation for Type 1 diabetes, which is when the body doesn’t make enough insulin.
- Researchers created a special device made from PDMS to slowly release fingolimod near the islets in the body.
- They discovered that too much fingolimod can actually hurt the transplant's success, meaning smaller doses work better than larger ones.
Article Synopsis
- Scientists created new hydrogels called interpenetrating networks (IPNs) to help repair cartilage in a way that helps patients get back to walking and other activities faster after surgery.
- They added a substance called aggrecan, which helps cartilage stay strong, to these hydrogels to see if it would help the cells survive better.
- The results showed that both aggrecan and another substance called chondroitin sulfate made the cells inside the hydrogels healthier, with aggrecan helping them live about 15.6% longer than normal.