Medical University of Graz, Department of Physiology, Graz, Austria.
Neuroimage. 2010 Apr 15;50(3):1067-73. doi: 10.1016/j.neuroimage.2010.01.014. Epub 2010 Jan 14.
For quantitative somatosensory testing in the clinical environment a microprocessor controlled MR-compatible stimulation device was developed. A main feature of this device is the use of an inflatable cuff allowing the application of defined test pressures (0-1000 mbar) to the skin surface. The cuff is pressurized by a piezoelectric proportional valve with embedded closed loop controller. The distortion of the pressure pulses, introduced by the tube between valve and cuff (tube lengths of 2 and 6 m), was evaluated. Two kinds of stimulation patterns were implemented by the microprocessor: constant frequency stimulation (selectable between 1 and 20 Hz) and stimulation with stepwise changing frequencies according to a pseudorandom sequence. Imaging tests (n=8, index finger) showed more robust responses in S1 (contralateral) and S2 (bilaterally) if evoked by the random sequence. Both, the technical tests and the imaging results, demonstrate that this new stimulation system is well suited to set a standard for somatosensory stimulation in individual longitudinal studies or multicenter comparisons.
为了在临床环境中进行定量体感测试,我们开发了一种微处理器控制的磁共振兼容刺激设备。该设备的一个主要特点是使用可充气袖带,可将定义的测试压力(0-1000 毫巴)施加到皮肤表面。袖带由带嵌入式闭环控制器的压电比例阀加压。评估了阀和袖带之间的管道(管长为 2 和 6 米)引入的压力脉冲失真。微处理器实现了两种刺激模式:恒频刺激(可在 1 到 20 Hz 之间选择)和根据伪随机序列逐步改变频率的刺激。成像测试(n=8,食指)显示,如果通过随机序列诱发,S1(对侧)和 S2(双侧)的反应更稳健。技术测试和成像结果均表明,这种新的刺激系统非常适合为个体纵向研究或多中心比较中的体感刺激设定标准。
