20 articles
A new review examines how cryoprotectants can better preserve spermatogonial stem cells in prepubertal boys facing cancer therapy.
International assessment exposes inconsistencies in iPSC testing that could impact regenerative medicine safety and efficacy.
Scientists generate true hematopoietic stem cells from human iPSCs that repopulate multiple blood lineages long-term, rivaling cord blood transplants.
Comprehensive review reveals stem cell research advances alongside persistent challenges in clinical translation and regulation.
Amino acid-based mixtures rival or beat the gold standard for stem cell cryopreservation, potentially improving clinical outcomes.
Scientists explore safer alternatives to stem cell transplants using cellular secretions that may offer similar benefits.
A novel cryoprotectant using just 2% DMSO matches or outperforms standard methods, simplifying stem cell banking for transplants.
Researchers developed a breakthrough technique to cryopreserve cardiac endothelial cells with 95% viability for regenerative medicine.
New research exposes key obstacles researchers face when choosing pluripotent stem cells for regenerative medicine applications.
Interrupted cooling protocols boost cell viability in cryopreservation by optimizing freeze-thaw timing and temperature control.
Researchers developed a method to rejuvenate aging stem cells, extending their lifespan beyond 100 days while preserving function.
Scientists review how stem cell biology is advancing therapeutic approaches for tissue regeneration and cellular replacement therapies.
Scientists review how hematopoietic stem cells become senescent with age and identify promising therapeutic strategies to restore blood system function.
Rando, Brunet & Goodell map five cardinal features of aged stem cells, offering a roadmap for rejuvenation therapies and extending tissue healthspan.
Breakthrough chemical reprogramming method transforms ordinary blood cells into versatile stem cells without genetic modification.
Revolutionary 3D culture system dramatically improves stem cell gene therapy outcomes, enhancing cell survival and therapeutic potential.
International society creates comprehensive roadmap to translate pluripotent stem cell research into approved medicines worldwide.
Researchers developed a method to artificially age stem cells, creating better models for studying neurodegeneration and other age-related conditions.
Two decades of induced pluripotent stem cell research have revolutionized regenerative medicine and opened new pathways for rejuvenation therapies.
Scientists develop guidelines to ensure stem cell studies include diverse populations, making results more applicable to everyone.
