强直伸展反射阈值作为中风后踝关节跖屈肌痉挛的一种测量方法。
Tonic Stretch Reflex Threshold as a Measure of Ankle Plantar-Flexor Spasticity After Stroke.
作者信息
Blanchette Andreanne K, Mullick Aditi A, Moïn-Darbari Karina, Levin Mindy F
机构信息
A.K. Blanchette, PT, PhD, Department of Rehabilitation, Université Laval, Quebec City, Quebec, Canada, and Center for Interdisciplinary Research in Rehabilitation and Social Integration, Quebec City, Quebec, Canada.
A.A. Mullick, MPT, School of Physical and Occupational Therapy, McGill University, Montreal, Quebec, Canada, and Center for Interdisciplinary Research in Rehabilitation of Greater Montreal, Jewish Rehabilitation Hospital, Montreal, Quebec, Canada.
出版信息
Phys Ther. 2016 May;96(5):687-95. doi: 10.2522/ptj.20140243. Epub 2015 Oct 8.
BACKGROUND
Commonly used spasticity scales assess the resistance felt by the evaluator during passive stretching. These scales, however, have questionable validity and reliability. The tonic stretch reflex threshold (TSRT), or the angle at which motoneuronal recruitment begins in the resting state, is a promising alternative for spasticity measurement. Previous studies showed that spasticity and voluntary motor deficits after stroke may be characterized by a limitation in the ability of the central nervous system to regulate the range of the TSRT.
OBJECTIVE
The study objective was to assess interevaluator reliability for TSRT plantar-flexor spasticity measurement.
DESIGN
This was an interevaluator reliability study.
METHODS
In 28 people after stroke, plantar-flexor spasticity was evaluated twice on the same day. Plantar-flexor muscles were stretched 20 times at different velocities assigned by a portable device. Plantar-flexor electromyographic signals and ankle angles were used to determine dynamic velocity-dependent thresholds. The TSRT was computed by extrapolating a regression line through dynamic velocity-dependent thresholds to the angular axis.
RESULTS
Mean TSRTs in evaluations 1 and 2 were 66.0 degrees (SD=13.1°) and 65.8 degrees (SD=14.1°), respectively, with no significant difference between them. The intraclass correlation coefficient (2,1) was .851 (95% confidence interval=.703, .928).
LIMITATIONS
The notion of dynamic stretch reflex threshold does not exclude the possibility that spasticity is dependent on acceleration, as well as on velocity; future work will study both possibilities.
CONCLUSIONS
Tonic stretch reflex threshold interevaluator reliability for evaluating stroke-related plantar-flexor spasticity was very good. The TSRT is a reliable measure of spasticity. More information may be gained by combining the TSRT measurement with a measure of velocity-dependent resistance.
背景
常用的痉挛评定量表评估的是评估者在被动拉伸过程中感受到的阻力。然而,这些量表的有效性和可靠性存在疑问。强直性牵张反射阈值(TSRT),即在静息状态下运动神经元募集开始时的角度,是一种很有前景的痉挛测量替代方法。先前的研究表明,中风后的痉挛和自愿运动功能障碍可能表现为中枢神经系统调节TSRT范围的能力受限。
目的
本研究的目的是评估TSRT测量跖屈肌痉挛时评估者间的可靠性。
设计
这是一项评估者间可靠性研究。
方法
对28名中风患者在同一天进行两次跖屈肌痉挛评估。通过便携式设备以不同速度对跖屈肌进行20次拉伸。利用跖屈肌肌电信号和踝关节角度来确定动态速度依赖性阈值。通过将穿过动态速度依赖性阈值的回归线外推到角轴来计算TSRT。
结果
第一次和第二次评估中的平均TSRT分别为66.0度(标准差=13.1°)和65.8度(标准差=14.1°),两者之间无显著差异。组内相关系数(2,1)为0.851(95%置信区间=0.703,0.928)。
局限性
动态牵张反射阈值的概念并不排除痉挛可能依赖于加速度以及速度的可能性;未来的研究将探讨这两种可能性。
结论
评估中风相关跖屈肌痉挛时,强直性牵张反射阈值评估者间的可靠性非常好。TSRT是一种可靠的痉挛测量方法。将TSRT测量与速度依赖性阻力测量相结合可能会获得更多信息。
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