Accurate Localization of Metal Electrodes Using Magnetic Resonance Imaging.
10.13104/jksmrm.2011.15.1.11
- Author:
Eunhae JOE
1
;
Min Oh GHIM
;
Yoon HA
;
Dong Hyun KIM
Author Information
1. School of Electrical and Electronic Engineering, Yonsei University, Seoul, Korea. donghyunkim@yonsei.ac.kr
- Publication Type:Original Article
- Keywords:
Microelectrode localization;
Field inhomogeneity;
Susceptibility artifact;
Metallic artifact
- MeSH:
Artifacts;
Brain;
Electrodes;
Imidazoles;
Magnetic Resonance Imaging;
Magnetic Resonance Spectroscopy;
Magnetics;
Magnets;
Neurosurgery;
Nitro Compounds
- From:Journal of the Korean Society of Magnetic Resonance in Medicine
2011;15(1):11-21
- CountryRepublic of Korea
- Language:English
-
Abstract:
PURPOSE: Localization using MRI is difficult due to susceptibility induced artifacts caused by metal electrodes. Here we took an advantage of the B0 pattern induced by the metal electrodes by using an oblique-view imaging method. MATERIALS AND METHODS: Metal electrode models with various diameters and susceptibilities were simulated to understand the aspect of field distortion. We set localization criteria for a turbo spin-echo (TSE) sequence usingconventional (90degrees view) and 45degrees oblique-view imaging method through simulation of images with various resolutions and validated the criteria usingphantom images acquired by a 3.0T clinical MRI system. For a gradient-refocused echo (GRE) sequence, which is relatively more sensitive to field inhomogeneity, we used phase images to find the center of electrode. RESULTS: There was least field inhomogeneity along the 45degrees line that penetrated the center of the electrode. Therefore, our criteria for the TSE sequence with 45degrees oblique-view was coincided regardless of susceptibility. And with 45degrees oblique-view angle images, pixel shifts were bidirectional so we can detect the location of electrodes even in low resolution. For the GRE sequence, the 45degrees oblique-view anglemethod madethe lines where field polarity changes become coincident to the Cartesian grid so the localization of the center coordinates was more facilitated. CONCLUSION: We suggested the method for accurate localization of electrode using 45degrees oblique-view angle imaging. It is expected to be a novelmethodto monitoring an electrophysiological brain study and brain neurosurgery.