Treating radiation wounds with aspirin hydrogels

Most people undergoing radiotherapy for cancer will experience radiation-induced skin injury that can include redness, pain, ulcers, necrosis and infection. There are few treatments for these wounds, with the most common methods being debridement (surgical removal of the damaged skin) and hyperbaric oxygenation (exposure to pure oxygen in a pressurized environment). Wound dressings made from hydrogels are gaining popularity because they are easy to apply and provide a wet environment for healing that is similar to the inside of the body. Glycopeptide-based hydrogels are especially promising: In laboratory and animal studies, the nanofiber structures have promoted cellular growth and regulated cell adhesion and migration. A research team led by Jiamin Zhang, Wei Wang, Yumin Zhang and Jianfeng Liu proposed loading aspirin, a common anti-inflammatory drug, into a glycopeptide-based hydrogel to create a multifunctional wound dressing for radiation-induced skin injuries.

In lab tests with cultured cells, the researchers found that the aspirin-contained hydrogel scavenged reactive oxygen species, repaired DNA double-strand breaks and inhibited inflammation caused by radiation exposure without affecting cellular growth. In mouse models of radiation-induced skin injury, the researchers found that dressing wounds for three weeks with the salve reduced acute injuries and accelerated healing — results that the team says point to its potential as an easy-to-administer, on-demand treatment option for reducing radiation damage and promoting healing in humans.