Romsauerova A, McEwan A, Holder D S
Department of Medical Physics and Bioengineering, UCL, London, UK.
Physiol Meas. 2006 May;27(5):S211-9. doi: 10.1088/0967-3334/27/5/S18. Epub 2006 Apr 24.
MFEIT (multi-frequency electrical impedance tomography) has the potential to provide a portable non-invasive neuroimaging method ideal for use in acute stroke. Skin perception has not previously occurred in MFEIT with injected frequencies above 2 kHz, but use in brain imaging requires applied current below 100 Hz, which could stimulate cutaneous nerve endings. The purpose of this work was to find the most suitable current pattern that could be employed in MFEIT measurements in the adult head with the UCLH Mk2.5 system, which applies currents from 20 Hz-1.6 MHz. Single frequency current waveforms of 0.28 mA peak-to-peak at 20 Hz-80 Hz were applied to the forearms of three volunteers; although the skin was abraded, none of these were perceived, which agrees with similar studies in the literature. When a full frequency pattern at 20 Hz-1.6 MHz was applied to the forearm or head in four healthy subjects, with the same current amplitude of 0.28 mA for each component, an unpleasant tingling sensation was perceived, due to summation of the applied currents. The sensation was reduced or abolished by attenuation or removal of frequencies below 100 Hz; the optimal compromise was a pattern with absence of 40 Hz, and with 80 and 20 Hz respectively reduced to 75% and 50%.
多频电阻抗断层成像(MFEIT)有潜力提供一种便携式非侵入性神经成像方法,非常适合用于急性中风。在MFEIT中,当注入频率高于2 kHz时,以前并未出现皮肤感知情况,但脑部成像需要施加低于100 Hz的电流,这可能会刺激皮肤神经末梢。这项工作的目的是利用UCLH Mk2.5系统(该系统施加20 Hz至1.6 MHz的电流),找到在成人头部进行MFEIT测量时可采用的最合适电流模式。将20 Hz至80 Hz峰峰值为0.28 mA的单频电流波形施加到三名志愿者的前臂;尽管皮肤有擦伤,但均未被感知到,这与文献中的类似研究结果一致。当在四名健康受试者的前臂或头部施加20 Hz至1.6 MHz的全频模式,且每个分量的电流幅度均为0.28 mA时,由于施加电流的叠加,受试者会感觉到一种不愉快的刺痛感。通过衰减或去除低于100 Hz的频率,这种感觉会减轻或消除;最佳折衷方案是一种没有40 Hz且80 Hz和20 Hz分别降至75%和50%的模式。
