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1.
Ann Neurol ; 86(5): 683-694, 2019 11.
Artículo en Inglés | MEDLINE | ID: mdl-31566799

RESUMEN

OBJECTIVE: Drug-resistant focal epilepsy is widely recognized as a network disease in which epileptic seizure propagation is likely coordinated by different neuronal oscillations such as low-frequency activity (LFA), high-frequency activity (HFA), or low-to-high cross-frequency coupling. However, the mechanism by which different oscillatory networks constrain the propagation of focal seizures remains unclear. METHODS: We studied focal epilepsy patients with invasive electrocorticography (ECoG) recordings and compared multilayer directional network interactions between focal seizures either with or without secondary generalization. Within-frequency and cross-frequency directional connectivity were estimated by an adaptive directed transfer function and cross-frequency directionality, respectively. RESULTS: In the within-frequency epileptic network, we found that the seizure onset zone (SOZ) always sent stronger information flow to the surrounding regions, and secondary generalization was accompanied by weaker information flow in the LFA from the surrounding regions to SOZ. In the cross-frequency epileptic network, secondary generalization was associated with either decreased information flow from surrounding regions' HFA to SOZ's LFA or increased information flow from SOZ's LFA to surrounding regions' HFA. INTERPRETATION: Our results suggest that the secondary generalization of focal seizures is regulated by numerous within- and cross-frequency push-pull dynamics, potentially reflecting impaired excitation-inhibition interactions of the epileptic network. ANN NEUROL 2019;86:683-694.


Asunto(s)
Epilepsia Refractaria/fisiopatología , Epilepsias Parciales/fisiopatología , Convulsiones/fisiopatología , Adolescente , Adulto , Niño , Electrocorticografía , Femenino , Humanos , Masculino , Persona de Mediana Edad , Adulto Joven
2.
Epilepsy Res ; 108(6): 1026-31, 2014 Aug.
Artículo en Inglés | MEDLINE | ID: mdl-24836846

RESUMEN

BACKGROUND: Pharmacology frequently fails for the treatment of epilepsy. Although surgical techniques are effective, these procedures are highly invasive. We describe feasibility and efficacy of minimally invasive mapping and ablation for the treatment of epilepsy. METHODS: Mapping and radiofrequency ablations were performed via the venous system in eleven baboons and three dogs. RESULTS: Mapping in deep cerebral areas was obtained in all animals. High-frequency pacing was able to induce seizure activity of local cerebral tissue in 72% of our attempts. Cerebral activity could be seen during mapping. Ablative lesions were deployed at deep brain sites without steam pops or sudden impedance rise. Histologic analysis showed necrosis at the sites of ablation in all primates. CONCLUSION: Navigation through the cerebral venous system to map seizure activity is feasible. Radiofrequency energy can be delivered transvenously or transcortically to successfully ablate cortical tissue in this animal model using this innovative approach.


Asunto(s)
Ablación por Catéter/métodos , Corteza Cerebral/cirugía , Epilepsia/cirugía , Procedimientos Neuroquirúrgicos/métodos , Animales , Mapeo Encefálico , Ablación por Catéter/efectos adversos , Ablación por Catéter/instrumentación , Corteza Cerebral/irrigación sanguínea , Corteza Cerebral/patología , Corteza Cerebral/fisiopatología , Modelos Animales de Enfermedad , Perros , Epilepsia/patología , Epilepsia/fisiopatología , Estudios de Factibilidad , Campos Magnéticos , Procedimientos Quirúrgicos Mínimamente Invasivos/efectos adversos , Procedimientos Quirúrgicos Mínimamente Invasivos/instrumentación , Procedimientos Quirúrgicos Mínimamente Invasivos/métodos , Procedimientos Neuroquirúrgicos/efectos adversos , Procedimientos Neuroquirúrgicos/instrumentación , Papio
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