A new study reveals how bone marrow stem cell niche generation is regulated, which could lead to improvements in stem cell transplantation for the treatment of blood diseases.
Arthur G. Palmer and Oliver Hobert of the Department of Biochemistry & Molecular Biophysics were selected in recognition of their distinguished and continuing achievements in research.
A study co-led by Columbia scientists suggests a nutrient transporter located at the blood-brain barrier could be commandeered to sneak therapeutic drugs into the brain.
Columbia researchers have found that cells inside clogged arteries have cancer-like properties that aggravate atherosclerosis, and anticancer drugs could be a new treatment.
A pilot feasibility study to assess a new therapy addresses a critical gap in treatment options for a high-risk patient population with unique emotional needs.
A new study shows that omitting aspirin from an anti-clotting regimen can improve outcomes for people living with a heart pump by reducing hospitalizations without increasing the risk of blood clots.
A new BRAIN Initiative atlas showcases the diverse cell populations within the human hypothalamus, paving the way to discovering novel cellular targets for obesity and metabolic disease
A minimally invasive procedure for fixing diseased aortic valves is just as safe and durable as traditional surgery after five years, a new study reports.