Objectives Understanding the molecular changes in the preclinical synovium is crucial for identifying factors that drive ...

Silent cells deep in your spinal cord may hold a surprising key to healing after devastating injuries and brain disease. A new study from Cedars-Sinai, reveals that support cells called astrocytes do ...

Researchers have used human neural stem cells to 3D print functional brain tissue that mimics the architecture of the cerebral cortex, the brain’s outermost layer. The breakthrough technique has the ...

A study by the team of Prof. Kodi Ravichandran (VIB-UGent Center for Inflammation Research) and colleagues found that pyroptosis, a form of programmed cell death traditionally thought to be purely ...

A new study by researchers at the Department of Molecular Medicine at SDU sheds light on one of the most severe consequences of stroke: damage to the brain's "cables"-the so-called nerve fibers-which ...

Medical researchers have found a peptide which, when administered intravenously, homes in on the new blood vessels that are forming in damaged tissue. The peptide has been used as a delivery vehicle ...

Recovery from deadly influenza infection may hinge on helping the lungs heal in addition to stopping the virus, according to a new study in mice, which shows that pairing modest antiviral therapies ...

New nanomaterial passes the blood-brain barrier to reduce damaging inflammation after the most common form of stroke. When ...

Researchers at the University of New South Wales, Sydney, have developed a flexible 3D bioprinter that can layer organic material directly onto organs or tissue. Unlike other bioprinting approaches, ...

​A new study led by researchers at the Johns Hopkins Kimmel Cancer Center, its Bloomberg~Kimmel Institute for Cancer ...