about
Bcl-x(L) blocks a mitochondrial inner membrane channel and prevents Ca2+ overload-mediated cell deathSynaptic inputs from stroke-injured brain to grafted human stem cell-derived neurons activated by sensory stimuli.Stroke alters behavior of human skin-derived neural progenitors after transplantation adjacent to neurogenic area in rat brainTransplantation of reprogrammed neurons for improved recovery after stroke.Monocyte-Derived Macrophages Contribute to Spontaneous Long-Term Functional Recovery after Stroke in Mice.Generation of cortical neurons from human induced-pluripotent stem cells by biodegradable polymeric microspheres loaded with priming factors.Bcl-x L blocks mitochondrial multiple conductance channel activation and inhibits 6-OHDA-induced death in SH-SY5Y cells.Choroid plexus-cerebrospinal fluid route for monocyte-derived macrophages after stroke.Direct conversion of human fibroblasts to functional excitatory cortical neurons integrating into human neural networks.Human induced pluripotent stem cell-derived cortical neurons integrate in stroke-injured cortex and improve functional recovery.Adrenal medulla calcium channel population is not conserved in bovine chromaffin cells in culture.Loss of HIF-1α accelerates murine FLT-3(ITD)-induced myeloproliferative neoplasia.Attenuation of reactive gliosis in stroke-injured mouse brain does not affect neurogenesis from grafted human iPSC-derived neural progenitors.Monocyte depletion early after stroke promotes neurogenesis from endogenous neural stem cells in adult brain.In Vitro Functional Characterization of Human Neurons and Astrocytes Using Calcium Imaging and ElectrophysiologyActivity in grafted human iPS cell-derived cortical neurons integrated in stroke-injured rat brain regulates motor behaviorSpontaneous Functional Recovery after Focal Damage in Neuronal Cultures
P50
Q27338716-099043A7-1D44-4649-BCFE-40BFA954CBA7Q36258150-C834B48F-0C64-4CE4-9452-E4DE46D986E3Q36303239-A1BF30A5-FE9D-45EC-A83E-FCB431DC6FBEQ39336340-967C4E7E-F9A4-47DC-A8FC-4C7B86364F46Q39852498-1268D7F0-935D-4297-ADCB-3C4FD5DDF083Q39894791-23F3A2A8-C9F4-4FBA-BA17-B57FDD4ACC33Q40576922-10666CE1-198E-4641-86B5-93895F1346DBQ41834713-E33E3443-7804-4432-9FB0-6D0118BD130BQ41927723-C9707744-0A76-4955-968E-6C6A70A80E75Q44578785-53D34C3B-9A7D-4C32-B69F-388D1708E74BQ45079665-B6D407B1-AC76-403C-9DD5-35456B7753EAQ45877127-2A051B09-0482-4A8E-8BA8-C81FB7ED3DAEQ48105361-7B95A26E-D63B-47C7-B7AD-B6F0F3CA21CCQ48178502-912D1E76-396D-497B-9363-0C11AB7E244CQ91104717-22B1B303-293E-4831-8BF6-3653127287D2Q91610895-B8D3545F-0C9C-42B6-9585-FDA69244AC92Q91823378-1DFE99DA-3586-4817-980F-6043E4299FBA
P50
description
researcher ORCID ID = 0000-0002-4812-4091
@en
name
Daniel Tornero
@ast
Daniel Tornero
@en
Daniel Tornero
@es
Daniel Tornero
@nl
type
label
Daniel Tornero
@ast
Daniel Tornero
@en
Daniel Tornero
@es
Daniel Tornero
@nl
prefLabel
Daniel Tornero
@ast
Daniel Tornero
@en
Daniel Tornero
@es
Daniel Tornero
@nl
P21
P31
P496
0000-0002-4812-4091