Author
Listed:
- Kassem Jaber
(McGill University
Duke Pratt School of Engineering)
- Tamir Avigdor
(McGill University
McGill University)
- Daniel Mansilla
(Institute of Neurosurgery Dr. Asenjo)
- Alyssa Ho
(McGill University
Duke University Medical Center)
- John Thomas
(McGill University
Duke Pratt School of Engineering)
- Chifaou Abdallah
(McGill University
McGill University)
- Stephan Chabardes
(Université Grenoble Alpes)
- Jeff Hall
(McGill University)
- Lorella Minotti
(Université Grenoble Alpes)
- Philippe Kahane
(Université Grenoble Alpes)
- Christophe Grova
(McGill University
Concordia University
McGill University)
- Jean Gotman
(McGill University)
- Birgit Frauscher
(McGill University
Duke Pratt School of Engineering
Duke University Medical Center)
Abstract
Stereo-electroencephalography (SEEG) is the gold standard to delineate surgical targets in focal drug-resistant epilepsy. SEEG uses electrodes placed directly into the brain to identify the seizure-onset zone (SOZ). However, its major constraint is limited brain coverage, potentially leading to misidentification of the ‘true’ SOZ. Here, we propose a framework to assess adequate SEEG sampling by coupling epileptic biomarkers with their spatial distribution and measuring the system’s response to a perturbation of this coupling. We demonstrate that the system’s response is strongest in well-sampled patients when virtually removing the measured SOZ. We then introduce the spatial perturbation map, a tool that enables qualitative assessment of the implantation coverage. Probability modelling reveals a higher likelihood of well-implanted SOZs in seizure-free patients or non-seizure free patients with incomplete SOZ resections, compared to non-seizure-free patients with complete resections. This highlights the framework’s value in sparing patients from unsuccessful surgeries resulting from poor SEEG coverage.
Suggested Citation
Kassem Jaber & Tamir Avigdor & Daniel Mansilla & Alyssa Ho & John Thomas & Chifaou Abdallah & Stephan Chabardes & Jeff Hall & Lorella Minotti & Philippe Kahane & Christophe Grova & Jean Gotman & Birgi, 2024.
"A spatial perturbation framework to validate implantation of the epileptogenic zone,"
Nature Communications, Nature, vol. 15(1), pages 1-17, December.
Handle:
RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-49470-z
DOI: 10.1038/s41467-024-49470-z
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