Accuracy of high-density EEG electrode position measurement using an optical scanner compared with the photogrammetry method

Orsolya Györfi; Cheng-Teng Ip; Anders Bach Justesen; Maria Louise Gam-Jensen; Connie Rømer; Martin Fabricius; Lars H Pinborg; Sándor Beniczky

doi:10.1016/j.cnp.2022.04.002

Accuracy of high-density EEG electrode position measurement using an optical scanner compared with the photogrammetry method

Orsolya Györfi, Cheng-Teng Ip, Anders Bach Justesen, Maria Louise Gam-Jensen, Connie Rømer, Martin Fabricius, Lars H Pinborg, Sándor Beniczky

Abstract

Objective: To determine the feasibility and accuracy of a handheld optical scanner to measure the three-dimensional (3D) EEG electrode coordinates in a high-density array of 256 electrodes.

Methods: We compared the optical scanning with a previously validated method, based on photogrammetry. Electrode coordinates were co-registered with the MRI of the patients, and mean distance error relative to the three-dimensional MRI reconstruction was determined for each patient. We included 60 patients: 30 were measured using the photogrammetry method, and 30 age and gender matched patients were measured with the optical scanner.

Results: Using the optical scanner, the mean distance error was 1.78 mm (95% confidence interval: 1.59-1.98 mm) which was significantly lower (p < 0.001) compared with the photogrammetry method (mean distance error: 2.43 mm; 95% confidence interval: 2.28-2.57 mm). The real-time scanning took 5-10 min per patient.

Conclusions: The handheld optical scanner is more accurate and feasible, compared to the photogrammetry method.

Significance: Measuring EEG electrode positions in high-density array, using the optical scanner is suitable for clinical implementation in EEG source imaging for presurgical evaluation.

Original language	English
Journal	Clinical neurophysiology practice
Volume	7
Pages (from-to)	135-138
Number of pages	4
ISSN	2467-981X
DOIs	https://doi.org/10.1016/j.cnp.2022.04.002
Publication status	Published - 2022

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10.1016/j.cnp.2022.04.002

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@article{63382c85620146aab59d195d487a9b52,

title = "Accuracy of high-density EEG electrode position measurement using an optical scanner compared with the photogrammetry method",

abstract = "Objective: To determine the feasibility and accuracy of a handheld optical scanner to measure the three-dimensional (3D) EEG electrode coordinates in a high-density array of 256 electrodes.Methods: We compared the optical scanning with a previously validated method, based on photogrammetry. Electrode coordinates were co-registered with the MRI of the patients, and mean distance error relative to the three-dimensional MRI reconstruction was determined for each patient. We included 60 patients: 30 were measured using the photogrammetry method, and 30 age and gender matched patients were measured with the optical scanner.Results: Using the optical scanner, the mean distance error was 1.78 mm (95% confidence interval: 1.59-1.98 mm) which was significantly lower (p < 0.001) compared with the photogrammetry method (mean distance error: 2.43 mm; 95% confidence interval: 2.28-2.57 mm). The real-time scanning took 5-10 min per patient.Conclusions: The handheld optical scanner is more accurate and feasible, compared to the photogrammetry method.Significance: Measuring EEG electrode positions in high-density array, using the optical scanner is suitable for clinical implementation in EEG source imaging for presurgical evaluation.",

author = "Orsolya Gy{\"o}rfi and Cheng-Teng Ip and Justesen, {Anders Bach} and Gam-Jensen, {Maria Louise} and Connie R{\o}mer and Martin Fabricius and Pinborg, {Lars H} and S{\'a}ndor Beniczky",

note = "{\textcopyright} 2022 International Federation of Clinical Neurophysiology. Published by Elsevier B.V.",

year = "2022",

doi = "10.1016/j.cnp.2022.04.002",

language = "English",

volume = "7",

pages = "135--138",

journal = "Clinical neurophysiology practice",

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T1 - Accuracy of high-density EEG electrode position measurement using an optical scanner compared with the photogrammetry method

AU - Györfi, Orsolya

AU - Ip, Cheng-Teng

AU - Justesen, Anders Bach

AU - Gam-Jensen, Maria Louise

AU - Rømer, Connie

AU - Fabricius, Martin

AU - Pinborg, Lars H

AU - Beniczky, Sándor

PY - 2022

Y1 - 2022

N2 - Objective: To determine the feasibility and accuracy of a handheld optical scanner to measure the three-dimensional (3D) EEG electrode coordinates in a high-density array of 256 electrodes.Methods: We compared the optical scanning with a previously validated method, based on photogrammetry. Electrode coordinates were co-registered with the MRI of the patients, and mean distance error relative to the three-dimensional MRI reconstruction was determined for each patient. We included 60 patients: 30 were measured using the photogrammetry method, and 30 age and gender matched patients were measured with the optical scanner.Results: Using the optical scanner, the mean distance error was 1.78 mm (95% confidence interval: 1.59-1.98 mm) which was significantly lower (p < 0.001) compared with the photogrammetry method (mean distance error: 2.43 mm; 95% confidence interval: 2.28-2.57 mm). The real-time scanning took 5-10 min per patient.Conclusions: The handheld optical scanner is more accurate and feasible, compared to the photogrammetry method.Significance: Measuring EEG electrode positions in high-density array, using the optical scanner is suitable for clinical implementation in EEG source imaging for presurgical evaluation.

AB - Objective: To determine the feasibility and accuracy of a handheld optical scanner to measure the three-dimensional (3D) EEG electrode coordinates in a high-density array of 256 electrodes.Methods: We compared the optical scanning with a previously validated method, based on photogrammetry. Electrode coordinates were co-registered with the MRI of the patients, and mean distance error relative to the three-dimensional MRI reconstruction was determined for each patient. We included 60 patients: 30 were measured using the photogrammetry method, and 30 age and gender matched patients were measured with the optical scanner.Results: Using the optical scanner, the mean distance error was 1.78 mm (95% confidence interval: 1.59-1.98 mm) which was significantly lower (p < 0.001) compared with the photogrammetry method (mean distance error: 2.43 mm; 95% confidence interval: 2.28-2.57 mm). The real-time scanning took 5-10 min per patient.Conclusions: The handheld optical scanner is more accurate and feasible, compared to the photogrammetry method.Significance: Measuring EEG electrode positions in high-density array, using the optical scanner is suitable for clinical implementation in EEG source imaging for presurgical evaluation.

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DO - 10.1016/j.cnp.2022.04.002

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JO - Clinical neurophysiology practice

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SN - 2467-981X

ER -

Accuracy of high-density EEG electrode position measurement using an optical scanner compared with the photogrammetry method

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