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Can we improve electrocorticography using a circular grid array in brain tumor surgery?

Authors :
Freund BE
Sherman WJ
Sabsevitz DS
Middlebrooks EH
Feyissa AM
Garcia DM
Grewal SS
Chaichana KL
Quinones-Hinojosa A
Tatum WO 4th
Source :
Biomedical physics & engineering express [Biomed Phys Eng Express] 2023 Nov 01; Vol. 9 (6). Date of Electronic Publication: 2023 Nov 01.
Publication Year :
2023

Abstract

Intraoperative electrocorticography (iECoG) is used as an adjunct to localize the epileptogenic zone during surgical resection of brain tumors in patients with focal epilepsies. It also enables monitoring of after-discharges and seizures with EEG during functional brain mapping with electrical stimulation. When seizures or after-discharges are present, they complicate accurate interpretation of the mapping strategy to outline the brain's eloquent function and can affect the surgical procedure. Recurrent seizures during surgery requires urgent treatment and, when occurring during awake craniotomy, often leads to premature termination of brain mapping due to post-ictal confusion or sedation from acute rescue therapy. There are mixed results in studies on efficacy with iECoG in patients with epilepsy and brain tumors influencing survival and functional outcomes following surgery. Commercially available electrode arrays have inherent limitations. These could be improved with customization potentially leading to greater precision in safe and maximal resection of brain tumors. Few studies have assessed customized electrode grid designs as an alternative to commercially available products. Higher density electrode grids with intercontact distances less than 1 cm improve spatial delineation of electrophysiologic sources, including epileptiform activity, electrographic seizures, and afterdischarges on iECoG during functional brain mapping. In response to the shortcomings of current iECoG grid technologies, we designed and developed a novel higher-density hollow circular electrode grid array. The 360-degree iECoG monitoring capability allows continuous EEG recording during surgical intervention through the aperture with and without electrical stimulation mapping. Compared with linear strip electrodes that are commonly used for iECoG during surgery, the circular grid demonstrates significant benefits in brain tumor surgery. This includes quicker recovery of post-operative motor deficits (2.4 days versus 9 days, p = 0.05), more extensive tumor resection (92.0% versus 77.6%, p = 0.003), lesser reduction in Karnofsky Performance scale postoperatively (-2 versus -11.6, p = 0.007), and more sensitivity to recording afterdischarges. In this narrative review, we discuss the advantages and disadvantages of commercially available recording devices in the operating room and focus on the usefulness of the higher-density circular grid.<br /> (© 2023 IOP Publishing Ltd.)

Details

Language :
English
ISSN :
2057-1976
Volume :
9
Issue :
6
Database :
MEDLINE
Journal :
Biomedical physics & engineering express
Publication Type :
Academic Journal
Accession number :
37871586
Full Text :
https://doi.org/10.1088/2057-1976/ad05dd