Stem cells, exosomes, gene therapy, peptides, hyperbaric oxygen, and epigenetic reprogramming
390 articoli
New biomimetic scaffold combines cartilage and bone layers to effectively regenerate damaged joint tissue in animal studies.
Researchers identified key cellular switches that enable newborn hearts to regenerate, revealing potential targets for adult cardiac repair.
Scientists discover non-canonical muscle stem cells in zebrafish and axolotls that could unlock new regenerative therapies for humans.
New collagen-based artificial corneas offer hope for millions with corneal blindness when donor tissue isn't available.
Scientists develop bandages that deliver Wnt signals to skeletal stem cells, promoting bone repair through epigenetic mechanisms.
Scientists decode how axolotl digits regrow, uncovering unique mechanisms that could revolutionize regenerative medicine.
Single injection of protective brain protein via gene therapy fully restored memory formation and dramatically reduced amyloid plaques.
Researchers used gene therapy to restore protective proteins in brain cells, preventing neurodegeneration in Parkinson's disease.
First successful gene therapy for aniridia increases retinal thickness and activates key vision pathways in mice.
AAV gene therapy successfully restored retinal function and improved vision in rats with LRAT-associated retinitis pigmentosa.
New spatial mapping reveals how gene therapy vectors differently affect male and female liver function and metabolism.
Researchers propose 30-year payment plans using securitization to make expensive gene therapies accessible while ensuring effectiveness.
