Search Results

Those with aging immune systems struggle to fight off novel viruses and respond weakly to vaccination. Stanford Medicine researchers were able to revitalize the immune system in mice.

A drug that boosts strength in injured or aging mice restores connections between nerves and muscle and suggests ways to combat weakness in humans due to aging, injury or disease.

Researchers found that when they turned cancer cells into immune cells, they were able to teach other immune cells how to attack cancer.

A technique developed at Stanford Medicine allows mice with diabetes to accept unmatched islet cells and durably restores blood sugar control without immunosuppression or graft-versus-host disease.

Using a method they developed for stem cell transplants, a Stanford team has enabled children with immune disorders to receive a new immune system and a matching kidney from a parent.

Strober, a professor and former chief of immunology and rheumatology, found a way for transplant recipients to reduce or abandon immunosuppressive drugs yet avoid organ rejection.

The structure of a critical cellular-signaling molecule has finally been discovered by Stanford researchers. The finding may lead to new therapies.

A new study has identified a way that the immune system shoots down its own cells when their anti-viral activity threatens to become friendly fire. The finding could pave the way to new treatments for autoimmune diseases.

A study spearheaded by Stanford researchers indicates that at least 1 in 5 hospitalized COVID-19 patients develops new antibodies that attack their own tissue within a week of admission.

A Stanford Medicine team used human stem cells to assemble a working nerve circuit connecting brain tissue to muscle tissue. The research could enable scientists to better understand neurological disorders that affect movement.