OBJECTIVE: Our aim was to investigate relationships between heterotopic and remote cortical structures at seizure initiation, in a patient with bilateral periventricular nodular heterotopias (BPNH) explored by intracerebral electrodes. METHODS: Stereoelectroencephalography (SEEG) was performed in a man with BPNH and refractory epilepsy to investigate the hypothesis of right temporal lobe epilepsy and the possible involvement of heterotopic structures during seizures. SEEG signals were analyzed with quantification of functional coupling between different brain structures during seizures, using nonlinear regression. We have used Z-score transformation of correlation values to reflect the change from the preictal period. Relationships between BPNH and cortical structures were investigated using analysis of stimulation-induced potentials. RESULTS: Three spontaneous seizures were recorded and analyzed. Signal analysis of interdependencies in two seizures demonstrated a large initial network involving both heterotopia and cortical structures. Stimulations of heterotopia induced responses in remote cortical structures. CONCLUSIONS: Distinct epileptogenic networks were identified, in which leader structures were either the heterotopic or the mesial temporal structures, with functional connections between heterotopic and cortical areas. SIGNIFICANCE: These results confirm that a vast epileptogenic network, including heterotopic and cortical neurons, may be responsible for seizure generation in BPNH. This may explain certain surgical failures in this group.
OBJECTIVE: Our aim was to investigate relationships between heterotopic and remote cortical structures at seizure initiation, in a patient with bilateral periventricular nodular heterotopias (BPNH) explored by intracerebral electrodes. METHODS: Stereoelectroencephalography (SEEG) was performed in a man with BPNH and refractory epilepsy to investigate the hypothesis of right temporal lobe epilepsy and the possible involvement of heterotopic structures during seizures. SEEG signals were analyzed with quantification of functional coupling between different brain structures during seizures, using nonlinear regression. We have used Z-score transformation of correlation values to reflect the change from the preictal period. Relationships between BPNH and cortical structures were investigated using analysis of stimulation-induced potentials. RESULTS: Three spontaneous seizures were recorded and analyzed. Signal analysis of interdependencies in two seizures demonstrated a large initial network involving both heterotopia and cortical structures. Stimulations of heterotopia induced responses in remote cortical structures. CONCLUSIONS: Distinct epileptogenic networks were identified, in which leader structures were either the heterotopic or the mesial temporal structures, with functional connections between heterotopic and cortical areas. SIGNIFICANCE: These results confirm that a vast epileptogenic network, including heterotopic and cortical neurons, may be responsible for seizure generation in BPNH. This may explain certain surgical failures in this group.
Authors: C E Szalkowski; J R Hinman; S W Threlkeld; Y Wang; A LePack; G D Rosen; J J Chrobak; J J LoTurco; R H Fitch Journal: Genes Brain Behav Date: 2010-11-25 Impact factor: 3.449
Authors: Richard L Nolan; Nicholas Brandmeir; Eric S Tucker; John L Magruder; Mark R Lee; Gang Chen; James W Lewis Journal: Neurosurg Focus Date: 2020-02-01 Impact factor: 4.047
Authors: Hui Ming Khoo; Nicolás von Ellenrieder; Natalja Zazubovits; Jeffery A Hall; François Dubeau; Jean Gotman Journal: Ann Clin Transl Neurol Date: 2019-05-03 Impact factor: 4.511
Authors: Emilija Cvetkovska; William Alves Martins; Jorge Gonzalez-Martinez; Ken Taylor; Jian Li; Olesya Grinenko; John Mosher; Richard Leahy; Patrick Chauvel; Dileep Nair Journal: Epilepsy Behav Case Rep Date: 2018-10-09