Login
 

287_63

This molecule was part of a large library of triazole-modified alginates developed by researchers at MIT and Boston Children's Hospital. The goal was to find a coating that would allow implanted medical devices or encapsulated cells (like those used for Type 1 Diabetes treatment) to function inside the body without being attacked by the immune system. Key Findings for 287_63

: It is a triazole-based modification of alginate, specifically created through "click chemistry" to change the surface properties of the polymer. 287_63

: Highly cited papers in Nature Medicine and Nature Biotechnology (circa 2016) by the Anderson and Langer labs. This molecule was part of a large library

: It is primarily discussed in the context of encapsulated islet cell transplantation . By coating insulin-producing cells in 287_63, researchers successfully restored blood sugar control in mice for long periods without using immunosuppressants. Patent and Publication Detailed write-ups and data on 287_63 can be found in: : Highly cited papers in Nature Medicine and

This molecule was part of a large library of triazole-modified alginates developed by researchers at MIT and Boston Children's Hospital. The goal was to find a coating that would allow implanted medical devices or encapsulated cells (like those used for Type 1 Diabetes treatment) to function inside the body without being attacked by the immune system. Key Findings for 287_63

: It is a triazole-based modification of alginate, specifically created through "click chemistry" to change the surface properties of the polymer.

: Highly cited papers in Nature Medicine and Nature Biotechnology (circa 2016) by the Anderson and Langer labs.

: It is primarily discussed in the context of encapsulated islet cell transplantation . By coating insulin-producing cells in 287_63, researchers successfully restored blood sugar control in mice for long periods without using immunosuppressants. Patent and Publication Detailed write-ups and data on 287_63 can be found in: