Two 91±¬ÁÏ researchers are developing treatments that aim to simultaneously treat cancer and improve patients’ quality of life. For World Cancer Day, 91±¬ÁÏ News asked them to discuss their novel materials and how these materials can treat both the cancer and the patient.
A 91±¬ÁÏ team led by Miqin Zhang, a professor of materials science and engineering and of neurological surgery, has developed a nanoparticle-based drug delivery system that can ferry a potent anti-cancer drug through the bloodstream safely. Their nanoparticle is derived from chitin, a natural and organic polymer that, among other things, makes up the outer shells of shrimp.
Miqin Zhang, a professor of materials science and engineering at the 91±¬ÁÏ, is looking for ways to help the body heal itself when injury, disease or surgery cause large-scale damage to one type of tissue in particular: skeletal muscle. Her goal is to create a synthetic, porous, biologically compatible “scaffold” that mimics the normal extracellular environment of skeletal muscle — onto which human cells could migrate and grow new replacement fibers.
In a paper published Sept. 27 in the journal Small, scientists at the 91±¬ÁÏ describe a new system to encase chemotherapy drugs within tiny, synthetic “nanocarrier” packages, which could be injected into patients and disassembled at the tumor site to release their toxic cargo.