Effects of cognitive load and prosthetic liner on volitional response times to vibrotactile feedback.

Q Medicine
Aman Sharma, Matthew J Leineweber, Jan Andrysek
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引用次数: 19

Abstract

Artificial tactile feedback systems can improve prosthetic function for people with amputation by substituting for lost proprioception in the missing limb. However, limited data exists to guide the design and application of these systems for mobility and balance scenarios. The purpose of this study was to evaluate the performance of a noninvasive artificial sensory feedback (ASF) system on lower-limb function in the presence of a cognitive load and a liner interface. Reaction times (RTs) and accuracy of leg-movement responses to vibratory stimuli at the thigh were recorded for 12 nondisabled individuals and 3 participants with transfemoral amputation using a custom-built testing apparatus. The results indicate that the addition of a cognitive load increases response times relative to the baseline condition by 0.26 to 0.33 s. The prosthetic liner produced a less pronounced increase in RT of 0.06 to 0.11 s. Participants were able to correctly identify the stimulus location with nearly 100% accuracy. These increased RTs are nontrivial and must be considered in designing ASF systems.

认知负荷和假体衬垫对振动触觉反馈意志反应时间的影响。
人工触觉反馈系统可以通过替代缺失肢体的本体感觉来改善截肢者的假肢功能。然而,现有的数据有限,无法指导这些系统在移动和平衡场景中的设计和应用。本研究的目的是评估无创人工感觉反馈(ASF)系统在认知负荷和线性界面存在下对下肢功能的影响。使用特制的测试仪器记录了12名非残疾个体和3名经股骨截肢者对大腿振动刺激的反应时间和腿部运动反应的准确性。结果表明,相对于基线条件,认知负荷的增加使反应时间增加了0.26至0.33秒。假体衬垫产生的RT增加不太明显,为0.06至0.11秒。参与者能够以接近100%的准确率正确识别刺激的位置。这些增加的RTs是非常重要的,在设计ASF系统时必须考虑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
1.64
自引率
0.00%
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