2025
On‐scalp magnetoencephalography based on optically pumped magnetometers to investigate temporal lobe epilepsy
Feys O, Wens V, Depondt C, Rikir E, Gaspard N, Van Paesschen W, Aeby A, Bodart O, Carrette E, Holmes N, Brookes M, Ferez M, Corvilain P, De Tiège X. On‐scalp magnetoencephalography based on optically pumped magnetometers to investigate temporal lobe epilepsy. Epilepsia 2025, 66: e142-e151. PMID: 40317508, DOI: 10.1111/epi.18439.Peer-Reviewed Original ResearchInterictal epileptiform dischargesOptically pumped magnetometersTemporal lobe epilepsyOn-scalp magnetoencephalographyLobe epilepsyRefractory temporal lobe epilepsySignal-to-noise ratioInvestigate temporal lobe epilepsySurgical resection cavityExtratemporal lobe epilepsyOn-scalpResection cavityEpileptiform dischargesPatientsEpilepsyTemporal lobeMEG recordingsMagnetoencephalographyMagnetometerAmplitude
2018
Resection Cavity Contraction Effects in the Use of Radioactive Sources (1-25 versus Cs-131) for Intra-Operative Brain Implants
Han D, Ma L, Braunstein S, Raleigh D, Sneed P, McDermott M, McDermott M. Resection Cavity Contraction Effects in the Use of Radioactive Sources (1-25 versus Cs-131) for Intra-Operative Brain Implants. Cureus 2018, 10: e2079. PMID: 29560292, PMCID: PMC5856410, DOI: 10.7759/cureus.2079.Peer-Reviewed Original ResearchResection cavityConsecutive patient casesResection cavity volumeSurgical resection cavityBiological effective dose (BED) calculationRate brachytherapy implantsBrain implantsDose distributionAccumulative dosesImplant procedureDose variabilityMagnetic resonance imagesEffective dose calculationPatient casesD10 valuesCs-131Significant differencesBrachytherapy implantsResonance imagesContractionMonthsImplantsBED calculationsD90Static volume
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply