Estimation of phase signal change in neuronal current MRI for evoke response of tactile detection with realistic somatosensory laminar network model
详细信息 查看全文
- 作者:Seyed Mehdi BagheriMofidi ; Majid Pouladian…
- 关键词:Neuronal current MRI ; Neuronal magnetic field ; Phase signal change ; Somatosensory laminar cortex
- 刊名:Australasian Physical & Engineering Sciences in Medicine
- 出版年:2016
- 出版时间:September 2016
- 年:2016
- 卷:39
- 期:3
- 页码:717-726
- 全文大小:2,494 KB
- 刊物主题:Biomedicine general; Biophysics and Biological Physics; Medical and Radiation Physics; Biomedical Engineering;
- 出版者:Springer Netherlands
- ISSN:1879-5447
- 卷排序:39
文摘
Magnetic field generated by neuronal activity could alter magnetic resonance imaging (MRI) signals but detection of such signal is under debate. Previous researches proposed that magnitude signal change is below current detectable level, but phase signal change (PSC) may be measurable with current MRI systems. Optimal imaging parameters like echo time, voxel size and external field direction, could increase the probability of detection of this small signal change. We simulate a voxel of cortical column to determine effect of such parameters on PSC signal. We extended a laminar network model for somatosensory cortex to find neuronal current in each segment of pyramidal neurons (PN). 60,000 PNs of simulated network were positioned randomly in a voxel. Biot–savart law applied to calculate neuronal magnetic field and additional phase. The procedure repeated for eleven neuronal arrangements in the voxel. PSC signal variation with the echo time and voxel size was assessed. The simulated results show that PSC signal increases with echo time, especially 100/80 ms after stimulus for gradient echo/spin echo sequence. It can be up to 0.1 mrad for echo time = 175 ms and voxel size = 1.48 × 1.48 × 2.18 mm3. With echo time less than 25 ms after stimulus, it was just acquired effects of physiological noise on PSC signal. The absolute value of the signal increased with decrease of voxel size, but its components had complex variation. External field orthogonal to local surface of cortex maximizes the signal. Expected PSC signal for tactile detection in the somatosensory cortex increase with echo time and have no oscillation.