Jump to navigation
STEM CELLS | STEM CELLS Translational Medicine
A simple and animal-free platform may boost the clinical application of neural cells differentiated from human induced pluripotent stem cells
A new study suggests that the blood anticoagulant factor Pros1 also plays a dual role as a regulator of neural stem cell quiescence and cell fate determination.
Researchers suggest that human neural progenitor cell transplantation could form part of an effective treatment strategy for neurodegenerative diseases
Research using neural stem cells derived from disease specific induced pluripotent stem cells may point the way towards a treatment for a severe metabolic disorder
A gamma-secretase inhibitor treatment of iPSC-derived cells inhibits tumorigenicity and may allow for safer iPSC-based therapeutics
The combination of neural stem cells transplantation with mutant Activated Protein C treatment improves functional repair in a mouse model of stroke
Research into a neurofilament-derived peptide finds that it has the potential to target NSC with therapeutic cargos
Researchers find that NSCs overexpressing a neurotrophic factor may be a viable therapeutic option for the treatment of neuron loss in Alzheimer’s Disease
New research describes the effective 3D differentiation of stem cells to dopaminergic neurons using microfluidic cell culture, a technique which may aid the study of Parkinson’s disease.
A new study highlights complexity in the metabolic requirements in neural cells and may lead to the formulation of strategies to control adult neurogenesis from neural stem cells
The Stem Cells Portal is a shared platform for the STEM CELLS and STEM CELLS Translational Medicine sister journals, providing up-to-the-minute coverage of the latest research from bench science and developments to clinical applications.
STEM CELLS Translational Medicine is the official journal partner of
STEM CELLS Translational Medicine is the official journal of
STEM CELLS is the official journal of
Copyright © 2017