The human brain can do many amazing things, but self-repair is not one of its repertoire of abilities. Once neurons die—from trauma, stroke, or disease—they rarely grow back.
Regulatory mechanisms governing stem cell quiescence in glandular organs remain ill-defined. Here, multi-omics profiling ...
Mayo Clinic researchers have developed a pioneering method to mend damaged hearts without open-heart surgery, an advance that ...
5don MSN
Japanese public expresses strong reluctance to donate cells for human brain organoid research
Research on human brain organoids (HBOs) is directly challenging how biobanks and biomedical institutes recruit volunteers.
Tolerance Bio, a biopharmaceutical company pioneering innovative approaches to extending healthspan by preserving, restoring, ...
2d
Klotho Neurosciences Wins the 2025 BioTech Breakthrough 'Cell Therapy Innovation of the Year' Award
Klotho Neurosciences, Inc. (NASDAQ: KLTO ) (the "Company" or "Klotho"), a U.S.-based biogenetics company, announces it has ...
This article is based on a poster originally authored by Valeria Chichagova, Carol de Santis, William Atkin, Hannah Steward, and Carolina Gandara. The prevalence of non-treatable visual impairment due ...
From axolotls to zebrafish, stem cells possess remarkable regenerative abilities, enabling them to restore lost limbs and repair damaged organs. These extraordinary capabilities, however, are not ...
Transplanting human gastric organoids engineered to release insulin in diabetic mice reduced hyperglycemia, offering a ...
ScienceAlert on MSN
'Young' Immune Cells Partly Reverse Alzheimer's Symptoms in Mice
Specially engineered 'young' immune cells could help to reverse the effects of aging and the damage to brain cells caused by ...
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