As aging populations and rising diabetes rates drive an increase in chronic wounds, more patients face the risk of amputations. UC Riverside researchers have developed an oxygen-delivering gel capable of healing injuries that might otherwise progress to limb loss.

Injuries that fail to heal for more than a month are considered chronic wounds. They affect an estimated 12 million people annually worldwide, and around 4.5 million in the U.S. Of these, about one in five patients will ultimately require a life-altering amputation.

The new gel, tested in animal models, targets what researchers believe is a root cause of many chronic wounds: a lack of oxygen in the deepest layers of the damaged tissue. Without sufficient oxygen, wounds languish in a prolonged state of inflammation, allowing bacteria to flourish and tissue to deteriorate rather than regenerate.

Postpartum breast cancer is diagnosed five to ten years after giving birth. It is associated with a higher risk of metastasis and a lower survival rate compared with women who have not been pregnant or those diagnosed during pregnancy. A team from the Institut Pasteur set out to understand the mammary gland mechanisms involved in tumor formation during involution, a major tissue remodeling process that occurs after pregnancy.

In a preclinical study, the scientists revealed how senescence, a cellular response inducing stable cell cycle arrest, plays an ambivalent role during mammary gland involution. While it is crucial for the normal tissue remodeling process in the mammary gland, senescence can also be hijacked by tumor cells to help them spread. This discovery, published in Nature Aging on February 18, 2026, suggests that targeting senescent cells during mammary gland involution could reduce the risk of postpartum breast cancer.