Pareja Galeano, Helios Sanchis Gomar, Fabián Gallardo, María Esther Lucía, Alejandro
IPSCs, a Promising Tool to Restore Muscle Atrophy. [artículo] - Journal of cellular physology, 2016 - 231(2):259-60.
Formato Vancouver:
Pareja Galeano H, Sanchís Gomar F, Emanuele E, Gallardo ME, Lucía A. IPSCs, a Promising Tool to Restore Muscle Atrophy. J Cell Physiol. 2016 Feb;231(2):259-60.
PMID: 26224204
Contiene 12 referencias
Induced pluripotent stem cells (iPSCs) are a promising tool for regenerative medicine in chronic conditions associated with muscle atrophy since iPSCs are easier to obtain, pose less ethical limitations and can better capture human genetic diversity compared with human embryonic stem cells. We highlight the potentiality of iPSCs for treating muscle-affecting conditions for which no effective cure is yet available, notably aging sarcopenia and inherited neurometabolic conditions. J. Cell. Physiol. 231: 259-260, 2016.
IPSCs, a Promising Tool to Restore Muscle Atrophy. [artículo] - Journal of cellular physology, 2016 - 231(2):259-60.
Formato Vancouver:
Pareja Galeano H, Sanchís Gomar F, Emanuele E, Gallardo ME, Lucía A. IPSCs, a Promising Tool to Restore Muscle Atrophy. J Cell Physiol. 2016 Feb;231(2):259-60.
PMID: 26224204
Contiene 12 referencias
Induced pluripotent stem cells (iPSCs) are a promising tool for regenerative medicine in chronic conditions associated with muscle atrophy since iPSCs are easier to obtain, pose less ethical limitations and can better capture human genetic diversity compared with human embryonic stem cells. We highlight the potentiality of iPSCs for treating muscle-affecting conditions for which no effective cure is yet available, notably aging sarcopenia and inherited neurometabolic conditions. J. Cell. Physiol. 231: 259-260, 2016.
