Winter Leoni, Huang Qiyin, Sertic Jacquelyn V L, Konczak Jürgen
Human Sensorimotor Control Laboratory, School of Kinesiology, University of Minnesota, Minneapolis, MN, United States.
Center for Clinical Movement Science, University of Minnesota, Minneapolis, MN, United States.
Front Rehabil Sci. 2022 Apr 8;3:830166. doi: 10.3389/fresc.2022.830166. eCollection 2022.
Proprioceptive training is any intervention aiming to improve proprioceptive function with the ultimate goal to enhance motor function and performance. It has been promoted as an approach to enhance athletic performance and as a tool for sensorimotor rehabilitation. Numerous studies sought to provide evidence on the effectiveness of the approach. However, many different training regimes claiming to train proprioception report a variety of sensorimotor measures that are not directly comparable. This, in turn, makes it difficult to assess effectiveness across approaches. It is the objective of this study to systematically review recent empirical evidence to gain an understanding of which outcome measures are most sensitive, which populations may benefit most from proprioceptive training, and what are the effects on proprioceptive and motor systems.
Four major databases were searched. The following inclusion criteria were applied: (1) A quantified pre- and post-treatment measure of proprioceptive function. (2) An intervention or training program believed to influence or enhance proprioceptive function. (3) Contained at least one form of treatment or outcome measure that is indicative of somatosensory function and not confounded by information from other sensory modalities. 4) The study reported of at least one quantified measure of motor performance.
Of the 3,297 articles identified by the database search, 70 studies met the inclusion criteria and were included for further review. Across studies, proprioceptive training led to comparable gains in both proprioceptive (+46%) and motor performance (+45%). The majority of studies (50/70) applied active movement interventions. Interventions applying somatosensory stimulation were most successful in clinical populations. Joint position sense error (JPSE) was the most commonly used proprioceptive measure and presents a reliable and feasible measure for clinical use.
Proprioceptive training can lead to significant improvements in proprioceptive and motor function across a range healthy and clinical populations. Regimens requiring active movement of the trainee tended to be most successful in improving sensorimotor performance. Conclusive evidence on how long training gains are retained is still lacking. There is no solid evidence about the underlying long-term neuroplastic changes associated proprioceptive training.
本体感觉训练是旨在改善本体感觉功能的任何干预措施,其最终目标是增强运动功能和表现。它已被推广为提高运动成绩的一种方法以及感觉运动康复的一种工具。众多研究试图为该方法的有效性提供证据。然而,许多声称训练本体感觉的不同训练方案报告了各种无法直接比较的感觉运动测量指标。这反过来又使得难以评估不同方法的有效性。本研究的目的是系统回顾近期的实证证据,以了解哪些结果测量指标最敏感,哪些人群可能从本体感觉训练中获益最多,以及对本体感觉和运动系统有哪些影响。
检索了四个主要数据库。应用了以下纳入标准:(1)对本体感觉功能进行量化的治疗前和治疗后测量。(2)被认为会影响或增强本体感觉功能的干预或训练计划。(3)包含至少一种表明躯体感觉功能且不受其他感觉模态信息混淆的治疗或结果测量形式。(4)该研究报告了至少一项运动表现的量化测量指标。
在数据库检索中识别出的3297篇文章中,70项研究符合纳入标准并被纳入进一步审查。在各项研究中,本体感觉训练在本体感觉(提高46%)和运动表现(提高45%)方面都带来了相当的提升。大多数研究(50/70)采用主动运动干预。应用躯体感觉刺激的干预在临床人群中最为成功。关节位置感觉误差(JPSE)是最常用的本体感觉测量指标,也是一种可靠且可行的临床测量指标。
本体感觉训练可使健康和临床人群的本体感觉及运动功能得到显著改善。要求受训者进行主动运动的训练方案在改善感觉运动表现方面往往最为成功。关于训练效果能维持多久仍缺乏确凿证据。关于与本体感觉训练相关的潜在长期神经可塑性变化,尚无确凿证据。
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