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首页> 外文期刊>IEEE transactions on neural systems and rehabilitation engineering >Evaluation of force-sensing resistors for gait event detection to trigger electrical stimulation to improve walking in the child with cerebral palsy
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Evaluation of force-sensing resistors for gait event detection to trigger electrical stimulation to improve walking in the child with cerebral palsy

机译:评估用于步态事件检测以触发电刺激以改善脑瘫儿童行走的力敏电阻器

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Force-sensing resistors (FSRs) were used to detect the transitions between five main phases of gait for the control of electrical stimulation (ES) while walking with seven children with spastic diplegia, cerebral palsy. The FSR positions within each child's insoles were customized based on plantar pressure profiles determined using a pressure-sensitive membrane array (Tekscan Inc., Boston, MA). The FSRs were placed in the insoles so that pressure transitions coincided with an ipsilateral or contralateral gait event. The transitions between the following gait phases were determined: loading response, mid- and terminal stance, and pre- and initial swing. Following several months of walking on a regular basis with FSR-triggered intramuscular ES to the hip and knee extensors, hip abductors, and ankle dorsi and plantar flexors, the accuracy and reliability of the FSRs to detect gait phase transitions were evaluated. Accuracy was evaluated with four of the subjects by synchronizing the output of the FSR detection scheme with a VICON (Oxford Metrics, U.K.) motion analysis system, which was used as the gait event reference. While mean differences between each FSR-detected gait event and that of the standard (VICON) ranged from +35 ms (indicating that the FSR detection scheme recognized the event before it actually happened) to -55 ms (indicating that the FSR scheme recognized the event after it occurred), the difference data was widely distributed, which appeared to be due in part to both intrasubject (step-to-step) and intersubject variability. Terminal stance exhibited the largest mean difference and standard deviation, while initial swing exhibited the smallest deviation and preswing the smallest mean difference. To determine step-to-step reliability, all seven children walked on a level walkway for at least 50 steps. Of 642 steps, there were no detection errors in 94.5% of the steps. Of the steps that contained a detection error, 80% were due to the failure of the FSR signal to reach the programmed threshold level during the transition to loading response. Recovery from an error always occurred one to three steps later.
机译:力感应电阻器(FSR)用于检测步态的五个主要阶段之间的过渡,以控制七名患有痉挛性截瘫,脑瘫的儿童行走,以控制电刺激(ES)。根据使用压敏膜阵列(Tekscan Inc.,马萨诸塞州波士顿)确定的足底压力曲线,定制每个儿童鞋垫中的FSR位置。将FSR放置在鞋垫中,以使压力转变与同侧或对侧步态同时发生。确定了以下步态阶段之间的过渡:加载响应,中和站姿以及前挥杆和初始挥杆。在FSR触发的肌内ES定期步行数月后,对髋部和膝盖伸肌,髋部外展肌以及脚背和足底屈肌进行了步行,评估了FSR检测步态相变的准确性和可靠性。通过将FSR检测方案的输出与VICON(英国牛津度量标准)运动分析系统进行同步来评估四名受试者的准确性,该系统用作步态事件参考。虽然每个FSR检测到的步态事件与标准(VICON)步态事件之间的平均差在+35毫秒(表明FSR检测方案在事件实际发生之前就识别出该事件)至-55毫秒(表明FSR方案能够识别该事件)之间。事件发生后),差异数据分布广泛,这似乎部分归因于主体内部(逐步)和主体间的可变性。终端姿态表现出最大的平均差异和标准偏差,而初始挥杆表现出最小的偏差,而挥杆表现出最小的平均差异。为了确定步骤的可靠性,所有七个孩子都在水平人行道上行走了至少50个步骤。在642个步骤中,有94.5%的步骤没有检测到错误。在包含检测错误的步骤中,有80%是由于FSR信号在过渡到加载响应期间未能达到编程的阈值水平。从错误中恢复总是在一到三个步骤之后发生。

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