RT Journal Article
T1 An electromagnetic study of the impact of brain anatomy on deep brain stimulation
A1 Muñoz San Martín, Sagrario
A1 García-Prieto, J
A1 Bajo, R
A1 Antoranz Canales, Pedro
A1 Ronda, S
A1 Barragán García, Vicenta María
A1 Jiménez, JC
A1 Sanchis, A
AB An electromagnetic simulation was performed to assess the volume of tissue activated on deep brain stimulation for two patientsrandomly selected. The finite element method is used to calculate the electric field distribution that predicts the volume of tissueactivated. High-resolution magnetic resonance images are utilized to create patient-specific anatomical models of the subthalamicnucleus and the internal pallidum. The results confirmed the influence of brain anatomy leading to different shape and volume oftissue activated despite similar technical features. Thus, a patient-specific model and an adequate choice of stimulation parametersare crucial on deep brain stimulation outcomes.
PB Acta Scientific Publications Private Limited
SN 2582-0931
YR 2023
FD 2023-07-01
LK https://hdl.handle.net/20.500.14352/134879
UL https://hdl.handle.net/20.500.14352/134879
LA eng
NO Muñoz San Martín, S., García-Prieto, J., Bajo, R., Antoranz Canales, P., Ronda, S., Barragán García, V. M., ... & Sanchis, A. (2023). An Electromagnetic Study of the Impact of Brain Anatomy on Deep Brain Stimulation. Acta Scientific Medical Sciences, 7(7), 16-25.
NO © All rights are reserved by S Muñoz., et al.
NO Universidad Complutense de Madrid (España)
NO Washington University Minnesota Human Connectome Project Consortium (Estados Unidos)
DS Docta Complutense
RD 20 may 2026