Neuro-QOL and the NIH Toolbox: implications for epilepsyPotential mechanisms of sudden unexpected death in epilepsySynaptic reorganization in subiculum and CA3 after early-life status epilepticus in the kainic acid rat model.Thalamic functional connectivity predicts seizure laterality in individual TLE patients: application of a biomarker development strategyNeuro-QOL: brief measures of health-related quality of life for clinical research in neurology.The role of synaptic reorganization in mesial temporal lobe epilepsy.Validity of the Neurology Quality-of-Life (Neuro-QoL) measurement system in adult epilepsy.Effectiveness of antiepileptic drug combination therapy for partial-onset seizures based on mechanisms of action.Neurocysticercosis and epilepsy.Sprouting and synaptic reorganization in the subiculum and CA1 region of the hippocampus in acute and chronic models of partial-onset epilepsy.Outcomes associated with switching from monotherapy to adjunctive therapy for patients with partial onset seizures.Septotemporal variation of the supragranular projection of the mossy fiber pathway in the dentate gyrus of normal and kindled rats.Ultrastructural features of sprouted mossy fiber synapses in kindled and kainic acid-treated rats.Detection of generalized tonic-clonic seizures using surface electromyographic monitoring.A collaborative effort to establish a comprehensive epilepsy program in Peru.Downregulation of KCNMB4 expression and changes in BK channel subtype in hippocampal granule neurons following seizure activity.Delta Rhythm Orchestrates the Neural Activity Underlying the Resting State BOLD Signal via Phase-amplitude Coupling.Biochemical and behavioral effects of a sensorimotor cortex injury in rats pretreated with the noradrenergic neurotoxin DSP-4.Activation of the dentate gyrus by pentylenetetrazol evoked seizures induces mossy fiber synaptic reorganization.Magnetic resonance imaging evidence of hippocampal injury after prolonged focal febrile convulsions.Pure motor hemiplegia including the face induced by an infarct of the medullary pyramid.Electromyography-based seizure detector: Preliminary results comparing a generalized tonic-clonic seizure detection algorithm to video-EEG recordings.The impact of epilepsy on health status among younger and older adults.Influence of Intracranial Electrode Density and Spatial Configuration on Interictal Spike Localization: A Case Study.Responsive neurostimulation in epilepsy therapy: some answers, lingering questions.Time to response and patient visibility during tonic-clonic seizures in the epilepsy monitoring unitEpilepsy in the elderlyPost-traumatic epilepsy: an overviewLongitudinal observations using simultaneous fMRI, multiple channel electrophysiology recording, and chemical microiontophoresis in the rat brainA Mouse Model of Repetitive Blast Traumatic Brain Injury Reveals Post-Trauma Seizures and Increased Neuronal ExcitabilityPrevention of brain damage after traumatic brain injury by pharmacological enhancement of KCNQ (Kv7, "M-type") K+ currents in neuronsAutomated Processing of Single-Channel Surface Electromyography From Generalized Tonic-Clonic Seizures to Inform Semiology
P50
Q24599341-A4EB479A-7DA4-48C9-81C4-1EAA834A9680Q28283022-90182E86-6D75-4CC6-9797-7D172E8EEB34Q30479479-AE87188E-438B-4B40-9B1A-CE79F2BD3D1CQ30616741-11F6851C-6EA6-4172-85F3-71CBD30E745BQ36014702-01783692-5E61-4D17-B016-214C5E2DC3DCQ36405791-7379DA8D-F84D-4AFA-B2C4-4FEA492BB78AQ37675682-CEFA986A-054C-411F-AC82-82D947639136Q38218764-5AFE3982-5349-4A26-A42A-EEE37D989AEBQ38527838-D872D784-0060-4D91-A06E-272ACC1052A8Q38559797-469C910E-BF0C-44B6-B28A-D02C90BFF03CQ41728441-AE9FC596-E32E-4324-90BA-6307090A1D2CQ43443575-9E517488-06F7-4C15-8EEE-27B864A62B75Q44347434-725D01D8-8ADC-443B-AAE3-C5F87A0AF9C9Q44762257-04ED4205-AF5E-4419-95E3-354DE6C9D7D8Q46383092-5869BA9C-A2C2-4898-AFA9-030C9AD2347DQ47096041-DC47BA7E-DBB8-4189-8DC5-3898427BAB49Q47435334-A0AD1023-7DDD-4BB5-8DC8-1FC2282173AFQ48405079-17BC57E1-0B49-41D7-AA36-05C2B7A16FFFQ48419296-F142284A-B44D-4519-9B1C-1558C0EF9A75Q48489122-D1D0C0C5-9100-48EF-89DB-BA422945B56BQ49143686-E7CC5C3C-6E3C-46AF-9730-6326DA903D16Q50880634-5E2339E8-05FF-4D11-AA9E-45C4B541CEC8Q51923981-088186D6-18E4-4B21-BF1E-7C4A0D738809Q53340840-2CA4968C-3FDC-4ACF-8BD7-D49157763479Q53587008-3FABC9EA-F93C-4D92-B0F6-1753E97BF0CBQ58591320-FCFF0533-7C79-457B-A523-E89A8F85AB4DQ81940102-8AD22C7B-6169-495B-9CAA-E8EBC8A230A8Q87743212-0E766038-2B71-44E9-8ACD-DF14160567F4Q88736778-FAD31BD2-5AF3-44E2-B9B1-743A81CB76C6Q91536489-753DDF51-BE01-4304-BF7C-B7A284B7DF96Q91613238-3FD5143B-BEED-4391-9070-E2004A8F6942Q92119680-1B079B81-D8E3-4A94-9FC5-8CA4F4C59573
P50
description
Mexican-American physician-scientist
@en
científico médico mexicano estadounidense
@es
onderzoeker
@nl
հետազոտող
@hy
name
Jose Cavazos
@ast
Jose Cavazos
@nl
Jose Cavazos
@sl
José E. Cavazos
@en
José E. Cavazos
@es
type
label
Jose Cavazos
@ast
Jose Cavazos
@nl
Jose Cavazos
@sl
José E. Cavazos
@en
José E. Cavazos
@es
altLabel
Jose Cavazos
@en
Jose Cavazos
@es
Jose E. Cavazos
@en
Jose E. Cavazos
@es
Jose E. Cavazos-Trevino
@en
Jose E. Cavazos-Trevino
@es
prefLabel
Jose Cavazos
@ast
Jose Cavazos
@nl
Jose Cavazos
@sl
José E. Cavazos
@en
José E. Cavazos
@es
P1053
J-4122-2016
P106
P1153
6603757272
P1960
mhsgiNoAAAAJ
P21
P31
P496
0000-0001-5777-2608