“This study introduces the concept of nanodiamond-mediated release of therapeutic proteins,” said Dean Ho, assistant professor of biomedical engineering and mechanical engineering at the McCormick School of Engineering and Applied Science. Ho led the research. “It’s a tricky problem because proteins, even small ones like insulin, bind so well to the nanodiamonds. But, in this case, the right pH level effectively triggers the release of the insulin.”
Nanodiamonds will hold onto insulin tightly under normal pH conditions. If they are place in an alkaline environment (pH above 7) the insulin loses its grip and is released.
That’s all well and good but why would you want to put insulin onto a would site?
Insulin accelerates wound healing by acting as a growth hormone. It encourages skin cells to proliferate and divide, restores blood flow to the wound, suppresses inflammation and fights infection. Earlier investigations have confirmed an increase in alkalinity of wound tissue, due to bacterial colonization, to levels as high as pH 10.5, the pH level that promoted insulin release from the nanodiamonds in the Northwestern study.
Now it makes sense.