Bellew James W, Sanders Kyle, Schuman Kristen, Barton Matt
Krannert School of Physical Therapy, University of Indianapolis , 1400 East Hanna Ave, 218 Martin Hall, Indianapolis, IN 46227 , USA.
Physiother Theory Pract. 2014 Feb;30(2):105-9. doi: 10.3109/09593985.2013.823582. Epub 2013 Aug 12.
Russian current, a medium frequency burst modulated alternating current (BMAC), is widely used for NMES, but has not been shown to elicit forces near voluntary maximum. In contrast, low frequency BMAC has been shown to produce greater force production than Russian and most recently, medium frequency burst modulated biphasic pulsed current (BMBPC) elicited greater force than Russian. Whether low frequency BMBPC yields greater force than medium frequency BMBPC is unknown. This study examined elicited forces using BMBPC with low and medium frequency carrier currents.
A cross-over design where percent maximal isometric knee extensor forces (%MVIF) elicited using BMBPC with low or medium kilohertz carrier frequencies were compared in 23 subjects. Perceived discomfort was also assessed. Data were compared using paired samples t-tests.
98.4% of the MVIF was elicited with the low frequency BMBPC which was significantly greater (p < 0.001) than the 40.4% yielded by the medium frequency current. Cohen's d effect size of 2.146 indicated a "huge effect". Perceived discomfort of the low frequency current was 5.7/10 and was significantly greater (p < 0.001) than the medium frequency current (3.6/10).
BMBPC with low frequency carrier current elicits forces approximating maximal volitional force. These findings offer new evidence with strong clinical implications when using NMES.
俄罗斯电流,一种中频脉冲调制交流电(BMAC),广泛用于神经肌肉电刺激(NMES),但尚未证明能引出接近自主最大力量的力。相比之下,低频BMAC已被证明比俄罗斯电流能产生更大的力量,最近,中频脉冲调制双相脉冲电流(BMBPC)比俄罗斯电流引出的力量更大。低频BMBPC是否比中频BMBPC产生更大的力量尚不清楚。本研究使用低频和中频载波电流的BMBPC来检测引出的力量。
采用交叉设计,比较23名受试者使用低频或中频千赫兹载波频率的BMBPC引出的最大等长膝关节伸展力百分比(%MVIF)。还评估了感知到的不适程度。使用配对样本t检验比较数据。
低频BMBPC引出的MVIF为98.4%,显著高于中频电流引出的40.4%(p < 0.001)。科恩d效应量为2.146,表明“效果巨大”。低频电流的感知不适程度为5.7/10,显著高于中频电流(3.6/10,p < 0.001)。
低频载波电流的BMBPC引出的力量接近最大自主力量。这些发现为使用NMES时提供了具有重要临床意义的新证据。
