Cleveland Clinic researchers have discovered that bacteria inside cancerous tumors may be key to understanding why ...

Inflammation covertly rewires the bone marrow, enabling mutated stem cells to rise and setting the stage for future blood disease.

Cancer immunotherapy has been transformed by engineered T cells, but those bespoke treatments are slow, expensive, and out of ...

Immune cells work to fight infection and other diseases. Different subsets work together to elicit a healthy immune response; ...

A groundbreaking scientific study has unveiled a remarkable discovery that may have far-reaching implications for the treatment of heart disease. The implications are immense offering glimpses of a ...

Targeted cancer drugs known as CDK4/6 inhibitors have improved outcomes for patients with advanced or metastatic HR+/HER2- breast cancer, but many patients still eventually relapse and become ...

Chimeric antigen receptor T (CAR-T) cell therapy has revolutionized hematologic cancer treatment, but its efficacy in solid tumors remains limited by poor infiltration into the complex tumor ...

Cancer researchers have long treated genetic chaos and epigenetic rewiring as separate engines of disease, two parallel ...

Multipotent dental stem cells can give rise to various cell types and show potential for treating injuries, diabetes, and heart disease in early clinical trials.