Understanding how macrophages direct tissue regeneration
Distinct macrophage signatures that align specifically with regeneration could offer novel therapies to enhance wound healing.
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Distinct macrophage signatures that align specifically with regeneration could offer novel therapies to enhance wound healing.
Research has found that after stroke in mice, B cells migrate to far regions of the brain that control motor functions, indicating their role in recovery.
Researchers have found that damage to mitochondria due to sepsis may be the cause of muscle weakness in mice.
Scientists have idenified that variation in a gene called Mucin 6 appears to indicate a tendency for acquiring Alzheimer’s disease.
Researchers in the U.S. have made a surprising discovery about the binding behaviour of a particular T-cell receptor, with complicated ramifications for immunotherapy developers.
New findings demonstrate that there may be ways to address blood-brain barrier dysfunction in epilepsy...
Scientists have identified a Par-4 amino-terminal fragment that is released by diverse therapy-sensitive cancer cells...
10 November 2015 | By Victoria White
E12-7Fc-M3 not only demonstrated a significantly improved efficiency against cocaine, but also had a considerably prolonged biological half-life in animal models...
17 June 2015 | By Victoria White
A new study suggests 15-PGDH shows promise as a drug target to help tissue regeneration, particularly after bone marrow transplantation and tissue injuries...