348 articles in this topic
Researchers 3D-printed silicone scaffolds seeded with human iPSC-derived spinal neural progenitor cells, transplanted them into transected rat spinal cords, and observed significant functional recovery at 12 weeks.
Adding methylene blue to ropivacaine in a serratus anterior plane block significantly prolongs pain relief up to 72 hours post-op.
Researchers erased imprinting marks in mouse sperm using dCas9-TET1, then traced how methylation partially recovered โ fingering H3K9me3 as the key mediator.
Master the cutting-edge science of exosome engineering, delivery pharmacokinetics, and clinical translation โ from CRISPR-loaded nanoparticles to the molecular logic of next-generation regenerative therapies.
Eli Lilly suggests lower doses of tirzepatide may safely sustain weight loss at potentially lower cost, opening new options for long-term obesity management.
A Phase 1/2 trial tests four rounds of intrathecal MSC injections in ALS patients, targeting both safety and disease progression.
New research in Nature Aging suggests tissue mechanical softness is a critical factor enabling cellular regeneration, with major implications for aging biology.
Go deeper into how exosomes are built, what they carry, and how their molecular cargo rewires receiving cells โ with implications for regeneration, aging, and emerging therapies.
Harvard's CellCartographer uses machine learning to identify optimal transcription factor combinations for rapid, high-efficiency cell reprogramming.
Kyoto researchers created jawbone-like organoids from human iPSCs, recapitulating mandibular development and modeling fragile bone disease.
Chinese researchers decode how chemical cocktails alone can convert adult human cells into pluripotent stem cells, bypassing gene editing.
A review of iPSC-based regenerative medicine charts the path from Parkinson's disease models to real-world cell replacement therapies.
