Debby Klooster scite author profile

Objective Many forms of epilepsy are associated with aberrant neuronal connections, but the relationship between such pathological connectivity and the underlying physiological predisposition to seizures is unclear. We sought to characterize the cortical excitability profile of a developmental form of epilepsy known to have structural and functional connectivity abnormalities. Methods We employed transcranial magnetic stimulation (TMS) with simultaneous EEG recording in eight patients with epilepsy from periventricular nodular heterotopia (PNH) and matched healthy controls. We used connectivity imaging findings to guide TMS targeting and compared the evoked responses to single-pulse stimulation from different cortical regions. Results Heterotopia patients with active epilepsy demonstrated a relatively augmented late cortical response that was greater than that of matched controls. This abnormality was specific to cortical regions with connectivity to subcortical heterotopic gray matter. Topographic mapping of the late response differences showed distributed cortical networks that were not limited to the stimulation site, and source analysis in one subject revealed that the generator of abnormal TMS-evoked activity overlapped with the spike and seizure onset zone. Interpretation Our findings indicate that patients with epilepsy from gray matter heterotopia have altered cortical physiology consistent with hyperexcitability, and that this abnormality is specifically linked to the presence of aberrant connectivity. These results support the idea that TMS-EEG could be a useful biomarker in epilepsy in gray matter heterotopia, expand our understanding of circuit mechanisms of epileptogenesis, and have potential implications for therapeutic neuromodulation in similar epileptic conditions associated with deep lesions.

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Technical aspects of neurostimulation: Focus on equipment, electric field modeling, and stimulation protocols

Klooster

Louw

Aldenkamp

et al. 2016

Neuroscience & Biobehavioral Reviews

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Cognitive deterioration in adult epilepsy: Does accelerated cognitive ageing exist?

Breuer

Boon

Bergmans

et al. 2016

Neuroscience & Biobehavioral Reviews

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Left prefrontal neuronavigated electrode localization in tDCS: 10–20 EEG system versus MRI-guided neuronavigation

Witte

Klooster

Dedoncker

et al. 2018

Psychiatry Research: Neuroimaging

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Debby Klooster

Physiological consequences of abnormal connectivity in a developmental epilepsy

Technical aspects of neurostimulation: Focus on equipment, electric field modeling, and stimulation protocols

Cognitive deterioration in adult epilepsy: Does accelerated cognitive ageing exist?

Left prefrontal neuronavigated electrode localization in tDCS: 10–20 EEG system versus MRI-guided neuronavigation

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