Identifying epileptogenic abnormalities through spatial clustering of <scp>MEG</scp> interictal band power

Owen, Thomas W; Vytene, Janiukstyte,; Hall, Gerard R; Horsley, Jonathan J.; McEvoy, Andrew W.; Miserocchi, Anna; Tisi, Jane de; Duncan, John S.; Rugg‐Gunn, Fergus; Wang, Yujiang; Taylor, Peter Neal

doi:10.1002/epi4.12767

Epilepsia Open

2023

DOI: 10.1002/epi4.12767

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Identifying epileptogenic abnormalities through spatial clustering of MEG interictal band power

Thomas W Owen

Janiukstyte, Vytene

Gerard R Hall

et al.

Abstract: Successful epilepsy surgery depends on localizing and resecting cerebral abnormalities and networks that generate seizures. Abnormalities, however, may be widely distributed across multiple discontiguous areas. We propose spatially constrained clusters as candidate areas for further investigation and potential resection. We quantified the spatial overlap between the abnormality cluster and subsequent resection, hypothesizing a greater overlap in seizure‐free patients. Thirty‐four individuals with refractory fo… Show more

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2024

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The Imaging Database for Epilepsy And Surgery (IDEAS)

Taylor,

Wang,

Simpson

et al. 2024

Epilepsia

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ObjectiveMagnetic resonance imaging (MRI) is a crucial tool for identifying brain abnormalities in a wide range of neurological disorders. In focal epilepsy, MRI is used to identify structural cerebral abnormalities. For covert lesions, machine learning and artificial intelligence (AI) algorithms may improve lesion detection if abnormalities are not evident on visual inspection. The success of this approach depends on the volume and quality of training data.MethodsHerein, we release an open‐source data set of pre‐processed MRI scans from 442 individuals with drug‐refractory focal epilepsy who had neurosurgical resections and detailed demographic information. We also share scans from 100 healthy controls acquired on the same scanners. The MRI scan data include the preoperative three‐dimensional (3D) T1 and, where available, 3D fluid‐attenuated inversion recovery (FLAIR), as well as a manually inspected complete surface reconstruction and volumetric parcellations. Demographic information includes age, sex, age a onset of epilepsy, location of surgery, histopathology of resected specimen, occurrence and frequency of focal seizures with and without impairment of awareness, focal to bilateral tonic–clonic seizures, number of anti‐seizure medications (ASMs) at time of surgery, and a total of 1764 patient years of post‐surgical followup. Crucially, we also include resection masks delineated from post‐surgical imaging.ResultsTo demonstrate the veracity of our data, we successfully replicated previous studies showing long‐term outcomes of seizure freedom in the range of ~50%. Our imaging data replicate findings of group‐level atrophy in patients compared to controls. Resection locations in the cohort were predominantly in the temporal and frontal lobes.SignificanceWe envisage that our data set, shared openly with the community, will catalyze the development and application of computational methods in clinical neurology.

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The Imaging Database for Epilepsy And Surgery (IDEAS)

Taylor,

Wang,

Simpson

et al. 2024

Epilepsia

View full text Add to dashboard Cite

show abstract

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Identifying epileptogenic abnormalities through spatial clustering of MEG interictal band power

Cited by 1 publication

References 20 publications

The Imaging Database for Epilepsy And Surgery (IDEAS)

The Imaging Database for Epilepsy And Surgery (IDEAS)

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