Advanced Neuromuscular Training Differentially Changes Performance on Visuomotor Reaction Tests and Single-leg Hop Tests in Patients with ACL Reconstruction.

IF 1.6 Q3 SPORT SCIENCES
International Journal of Sports Physical Therapy Pub Date : 2024-11-01 eCollection Date: 2024-01-01 DOI:10.26603/001c.124807
Terese Chmielewski, Michael Obermeier, Adam Meierbachtol, Asher Jenkins, Michael Stuart, Robby Sikka, Marc Tompkins
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引用次数: 0

Abstract

Background: Advanced neuromuscular training prepares patients with anterior cruciate ligament reconstruction (ACLR) for sport participation. Return-to-sport testing often includes single-leg hop tests, yet combining motor and cognitive tasks (i.e., dual-task) might reveal neurocognitive reliance.

Purpose/hypothesis: This study examined changes in performance on visuomotor reactions tests and single-leg hop tests following advanced neuromuscular training in patients with ACLR. The hypothesis was that performance would improve less on reaction tests than on single-leg hop tests.

Study design: Quasi experimental, Pretest-Posttest.

Methods: Twenty-five patients with ACLR (11 males) completed 10 sessions of advanced neuromuscular training and pre-and post-training testing. Reaction tests outcomes were from a platform and visual display. The double-leg reaction test involved touching target dots with either leg for 20 seconds; correct touches and errors were recorded. The single-leg reaction test involved hopping on the test leg to 10 target dots; hop time and errors were recorded. Single-leg hop tests included forward, triple, crossover triple, and timed hop; limb symmetry index was recorded. Effect sizes were calculated for corrected touches on the double-leg reaction test, surgical side hop time on the single-leg reaction test, and surgical side hop distance or time on single-leg hop tests.

Results: Correct touches on the double-leg reaction test significantly increased from pre- to post-training (20.4 +/- 4.3 vs. 23.9 +/- 2.8, p<0.001). Hop time on the single-leg reaction test significantly decreased from pre- to post-training (Surgical leg 13.2 vs. 12.3 seconds, non-surgical leg 13.0 vs. 12.1 seconds, p=0.003). Mean errors did not significantly change on either reaction test (p> 0.05). Cohens d effect sizes in descending order was single-leg hop tests (d=0.9 to 1.3), double-leg reaction test (d=0.9), and single-leg reaction test (d=0.5).

Conclusion: Motor performance improved after advanced neuromuscular training, but the effect size was less on visuomotor reaction tests than single-leg hop tests. The results suggest persistence of neurocognitive reliance after ACLR and a need for more dual-task challenges in training.

Level of evidence: 3.

高级神经肌肉训练可不同程度地改变前交叉韧带重建患者在视觉运动反应测试和单腿跳跃测试中的表现。
背景:高级神经肌肉训练为前交叉韧带重建(ACLR)患者参加体育运动做好准备。重返运动场测试通常包括单腿跳跃测试,但结合运动和认知任务(即双重任务)可能会揭示神经认知的依赖性:本研究考察了前交叉韧带损伤患者在接受高级神经肌肉训练后,视觉运动反应测试和单腿跳跃测试成绩的变化。假设是反应测试成绩的提高幅度小于单腿跳跃测试成绩的提高幅度:研究设计:准实验,前测-后测:25 名前交叉韧带损伤患者(11 名男性)完成了 10 次高级神经肌肉训练和训练前后测试。反应测试结果来自平台和视觉显示。双腿反应测试包括任一腿在20秒内触碰目标点;记录正确触碰和错误触碰。单腿反应测试包括用测试腿跳到 10 个目标点;记录跳的时间和错误。单腿跳跃测试包括向前跳、三周跳、交叉三周跳和定时跳;记录肢体对称指数。计算双腿反应测试的正确触点、单腿反应测试的手术侧跳跃时间以及单腿跳跃测试的手术侧跳跃距离或时间的效应大小:结果:双腿反应测试的正确触地次数从训练前到训练后都有明显增加(20.4 +/- 4.3 vs. 23.9 +/- 2.8,P 0.05)。科恩斯d效应大小从大到小依次为单腿跳跃测试(d=0.9至1.3)、双腿反应测试(d=0.9)和单腿反应测试(d=0.5):结论:高级神经肌肉训练后,运动表现有所改善,但视觉运动反应测试的效应大小小于单腿跳跃测试。结果表明,前交叉韧带损伤后神经认知依赖仍在持续,需要在训练中进行更多的双任务挑战:3.
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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来源期刊
CiteScore
2.50
自引率
5.90%
发文量
124
审稿时长
16 weeks
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