The impact of simultaneous intracranial recordings on scalp EEG: A finite element analysis

In this study, we examined the utility of simultaneous scalp and stereotactic intracranial electroencephalography (SSIEEG) in epilepsy patients. Although SSIEEG offers valuable insights into epilepsy and cognitive function, its routine use is uncommon. Challenges include interpreting post-craniotomy...

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Published in	Journal of neuroscience methods Vol. 405; p. 110101
Main Authors	Wong, Simeon M., Sharma, Rohit, Abushama, Ahmed, Ochi, Ayako, Otsubo, Hiroshi, Ibrahim, George M.
Format	Journal Article
Language	English
Published	Netherlands Elsevier B.V 01.05.2024
Subjects	Burr holes Finite element analysis Intracranial electroencephalography Leadfield Scalp electroencephalography Simulation Intracranial electroencephalography Scalp electroencephalography Leadfield Finite element analysis Simulation Burr holes
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Abstract	In this study, we examined the utility of simultaneous scalp and stereotactic intracranial electroencephalography (SSIEEG) in epilepsy patients. Although SSIEEG offers valuable insights into epilepsy and cognitive function, its routine use is uncommon. Challenges include interpreting post-craniotomy scalp EEG due to surgically implanted electrodes. We describe our methodology for conducting SSIEEG recordings. To simulate the potential impact on EEG interpretation, we computed the leadfield of scalp electrodes with and without burrholes using Finite Element Analysis to compare the resulting sensitivity volume and waveforms of simulated intracranial signals between skulls with and without burrholes. The presence of burr holes in the skull layer of the leadfield models did not discernibly modify simulated waveforms or scalp EEG topology. Using realistic SEEG burr hole diameter, the difference in the average leadfield of scalp electrodes was 0.12% relative to the effect of switching two nearby electrodes, characterized by the cosine similarity difference. No patients experienced adverse events related to SSIEEG. Although there is increasing acceptance and interest in SSIEEG, few studies have characterized the technical feasibility. Here, we demonstrate through modelling that scalp recordings from SSIEEG are comparable to that through an intact skull. The placement and simultaneous acquisition of scalp EEG during invasive monitoring through stereotactically inserted EEG electrodes is routinely performed at the Hospital for Sick Children. Scalp EEG recordings may assist with clinical interpretation. Burr holes in the skull layer did not discernibly alter EEG waveforms or topology. •Finite element analysis is used to simulate SSIEEG.•Burrholes for stereotaxic EEG electrodes have minimal impact on the lead field.•In 31 consecutive cases, no adverse effects were reported.
AbstractList	In this study, we examined the utility of simultaneous scalp and stereotactic intracranial electroencephalography (SSIEEG) in epilepsy patients. Although SSIEEG offers valuable insights into epilepsy and cognitive function, its routine use is uncommon. Challenges include interpreting post-craniotomy scalp EEG due to surgically implanted electrodes. We describe our methodology for conducting SSIEEG recordings. To simulate the potential impact on EEG interpretation, we computed the leadfield of scalp electrodes with and without burrholes using Finite Element Analysis to compare the resulting sensitivity volume and waveforms of simulated intracranial signals between skulls with and without burrholes. The presence of burr holes in the skull layer of the leadfield models did not discernibly modify simulated waveforms or scalp EEG topology. Using realistic SEEG burr hole diameter, the difference in the average leadfield of scalp electrodes was 0.12% relative to the effect of switching two nearby electrodes, characterized by the cosine similarity difference. No patients experienced adverse events related to SSIEEG. Although there is increasing acceptance and interest in SSIEEG, few studies have characterized the technical feasibility. Here, we demonstrate through modelling that scalp recordings from SSIEEG are comparable to that through an intact skull. The placement and simultaneous acquisition of scalp EEG during invasive monitoring through stereotactically inserted EEG electrodes is routinely performed at the Hospital for Sick Children. Scalp EEG recordings may assist with clinical interpretation. Burr holes in the skull layer did not discernibly alter EEG waveforms or topology. In this study, we examined the utility of simultaneous scalp and stereotactic intracranial electroencephalography (SSIEEG) in epilepsy patients. Although SSIEEG offers valuable insights into epilepsy and cognitive function, its routine use is uncommon. Challenges include interpreting post-craniotomy scalp EEG due to surgically implanted electrodes.BACKGROUNDIn this study, we examined the utility of simultaneous scalp and stereotactic intracranial electroencephalography (SSIEEG) in epilepsy patients. Although SSIEEG offers valuable insights into epilepsy and cognitive function, its routine use is uncommon. Challenges include interpreting post-craniotomy scalp EEG due to surgically implanted electrodes.We describe our methodology for conducting SSIEEG recordings. To simulate the potential impact on EEG interpretation, we computed the leadfield of scalp electrodes with and without burrholes using Finite Element Analysis to compare the resulting sensitivity volume and waveforms of simulated intracranial signals between skulls with and without burrholes.NEW METHODWe describe our methodology for conducting SSIEEG recordings. To simulate the potential impact on EEG interpretation, we computed the leadfield of scalp electrodes with and without burrholes using Finite Element Analysis to compare the resulting sensitivity volume and waveforms of simulated intracranial signals between skulls with and without burrholes.The presence of burr holes in the skull layer of the leadfield models did not discernibly modify simulated waveforms or scalp EEG topology. Using realistic SEEG burr hole diameter, the difference in the average leadfield of scalp electrodes was 0.12% relative to the effect of switching two nearby electrodes, characterized by the cosine similarity difference. No patients experienced adverse events related to SSIEEG.RESULTSThe presence of burr holes in the skull layer of the leadfield models did not discernibly modify simulated waveforms or scalp EEG topology. Using realistic SEEG burr hole diameter, the difference in the average leadfield of scalp electrodes was 0.12% relative to the effect of switching two nearby electrodes, characterized by the cosine similarity difference. No patients experienced adverse events related to SSIEEG.Although there is increasing acceptance and interest in SSIEEG, few studies have characterized the technical feasibility. Here, we demonstrate through modelling that scalp recordings from SSIEEG are comparable to that through an intact skull.COMPARISON WITH EXISTING METHODSAlthough there is increasing acceptance and interest in SSIEEG, few studies have characterized the technical feasibility. Here, we demonstrate through modelling that scalp recordings from SSIEEG are comparable to that through an intact skull.The placement and simultaneous acquisition of scalp EEG during invasive monitoring through stereotactically inserted EEG electrodes is routinely performed at the Hospital for Sick Children. Scalp EEG recordings may assist with clinical interpretation. Burr holes in the skull layer did not discernibly alter EEG waveforms or topology.CONCLUSIONThe placement and simultaneous acquisition of scalp EEG during invasive monitoring through stereotactically inserted EEG electrodes is routinely performed at the Hospital for Sick Children. Scalp EEG recordings may assist with clinical interpretation. Burr holes in the skull layer did not discernibly alter EEG waveforms or topology. In this study, we examined the utility of simultaneous scalp and stereotactic intracranial electroencephalography (SSIEEG) in epilepsy patients. Although SSIEEG offers valuable insights into epilepsy and cognitive function, its routine use is uncommon. Challenges include interpreting post-craniotomy scalp EEG due to surgically implanted electrodes. We describe our methodology for conducting SSIEEG recordings. To simulate the potential impact on EEG interpretation, we computed the leadfield of scalp electrodes with and without burrholes using Finite Element Analysis to compare the resulting sensitivity volume and waveforms of simulated intracranial signals between skulls with and without burrholes. The presence of burr holes in the skull layer of the leadfield models did not discernibly modify simulated waveforms or scalp EEG topology. Using realistic SEEG burr hole diameter, the difference in the average leadfield of scalp electrodes was 0.12% relative to the effect of switching two nearby electrodes, characterized by the cosine similarity difference. No patients experienced adverse events related to SSIEEG. Although there is increasing acceptance and interest in SSIEEG, few studies have characterized the technical feasibility. Here, we demonstrate through modelling that scalp recordings from SSIEEG are comparable to that through an intact skull. The placement and simultaneous acquisition of scalp EEG during invasive monitoring through stereotactically inserted EEG electrodes is routinely performed at the Hospital for Sick Children. Scalp EEG recordings may assist with clinical interpretation. Burr holes in the skull layer did not discernibly alter EEG waveforms or topology. •Finite element analysis is used to simulate SSIEEG.•Burrholes for stereotaxic EEG electrodes have minimal impact on the lead field.•In 31 consecutive cases, no adverse effects were reported.
ArticleNumber	110101
Author	Ochi, Ayako Otsubo, Hiroshi Sharma, Rohit Abushama, Ahmed Ibrahim, George M. Wong, Simeon M.
Author_xml	– sequence: 1 givenname: Simeon M. surname: Wong fullname: Wong, Simeon M. organization: Neurosciences and Mental Health, Hospital for Sick Children, Toronto, Canada – sequence: 2 givenname: Rohit surname: Sharma fullname: Sharma, Rohit organization: Department of Neurology, Hospital for Sick Children, Toronto, Canada – sequence: 3 givenname: Ahmed surname: Abushama fullname: Abushama, Ahmed organization: Department of Neurology, Hospital for Sick Children, Toronto, Canada – sequence: 4 givenname: Ayako surname: Ochi fullname: Ochi, Ayako organization: Department of Neurology, Hospital for Sick Children, Toronto, Canada – sequence: 5 givenname: Hiroshi surname: Otsubo fullname: Otsubo, Hiroshi organization: Department of Neurology, Hospital for Sick Children, Toronto, Canada – sequence: 6 givenname: George M. surname: Ibrahim fullname: Ibrahim, George M. email: george.ibrahim@sickkids.ca organization: Neurosciences and Mental Health, Hospital for Sick Children, Toronto, Canada
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Cites_doi	10.1111/epi.12512 10.1016/j.clinph.2011.07.024 10.1016/j.eplepsyres.2011.09.007 10.1016/S1388-2457(01)00714-3 10.1007/s10548-014-0417-z 10.1111/ene.15106 10.1155/2011/156869 10.1016/j.neuroimage.2010.07.033 10.1597/1545-1569_1992_029_0303_agsoth_2.3.co_2 10.1016/j.neuroimage.2011.09.015 10.1016/j.seizure.2018.11.015 10.1016/j.neuroimage.2009.02.024 10.1111/epi.17556 10.1111/epi.17357 10.1006/nimg.2001.0978 10.1097/WNP.0000000000000739 10.1111/epi.17365 10.1093/cercor/bhab192
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Keywords	Intracranial electroencephalography Scalp electroencephalography Leadfield Finite element analysis Simulation Burr holes
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Title	The impact of simultaneous intracranial recordings on scalp EEG: A finite element analysis
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