Abstract
Objectives
This study noninvasively examined the electrical conductivity (σ) characteristics of diffuse gliomas using MRI and tested its validity.
Methods
MRI including a 3D steady-state free precession (3D SSFP) sequence was performed on 30 glioma patients. The σ maps were reconstructed from the phase images of the 3D SSFP sequence. The σ histogram metrics were extracted and compared among the contrast-enhanced (CET) and noncontrast-enhanced tumour components (NCET) and normal brain parenchyma (NP). Difference in tumour σ histogram metrics among tumour grades and correlation of σ metrics with tumour grades were tested. Validity of σ measurement using this technique was tested by correlating the mean tumour σ values measured using MRI with those measured ex vivo using a dielectric probe.
Results
Several σ histogram metrics of CET and NCET of diffuse gliomas were significantly higher than NP (Bonferroni-corrected p ≤ .045). The maximum σ of NCET showed a moderate positive correlation with tumour grade (r = .571, Bonferroni-corrected p = .018). The mean tumour σ measured using MRI showed a moderate positive correlation with the σ measured ex vivo (r = .518, p = .040).
Conclusions
Tissue σ can be evaluated using MRI, incorporation of which may better characterise diffuse gliomas.
Key Points
• This study tested the validity of noninvasive electrical conductivity measurements by MRI.
• This study also evaluated the electrical conductivity characteristics of diffuse glioma.
• Gliomas have higher electrical conductivity values than the normal brain parenchyma.
• Noninvasive electrical conductivity measurement can be helpful for better characterisation of glioma.
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