感觉预期受损导致的神经可塑性结果(NOISE)假说:前交叉韧带功能障碍如何影响感觉知觉和膝关节稳定性。
The Neuroplastic Outcomes from Impaired Sensory Expectations (NOISE) hypothesis: How ACL dysfunction impacts sensory perception and knee stability.
作者信息
Schnittjer Amber J, Simon Janet E, Whittier Tyler T, Grooms Dustin R
机构信息
Translational Biomedical Sciences, Graduate College, Ohio University, Athens, OH, USA; Ohio Musculoskeletal and Neurological Institute (OMNI), Ohio University, Athens, OH, USA.
Ohio Musculoskeletal and Neurological Institute (OMNI), Ohio University, Athens, OH, USA; Department of Athletic Training, College of Health Sciences and Professions, Ohio University, Athens, OH, USA.
出版信息
Musculoskelet Sci Pract. 2025 Feb;75:103222. doi: 10.1016/j.msksp.2024.103222. Epub 2024 Nov 19.
BACKGROUND
The anterior cruciate ligament (ACL) is integral to maintaining knee joint stability but is susceptible to rupture during physical activity. Despite surgical restoration of passive or mechanical stability, patients struggle to regain strength and prior level of function. Recent efforts have focused on understanding how ACL-related changes in the nervous system contribute to deficits in sensorimotor control following injury and reconstruction. We hypothesize that these challenges are partially due to an increase in sensorimotor uncertainty, a state that reduces the precision of movement control.
OBJECTIVES
This review proposes the ACL NOISE (Neuroplastic Outcomes from Impaired Sensory Expectations) hypothesis, reframing current literature to provide a case that increased sensory noise following ACL injury and reconstruction disrupts sensory predictions, which are anticipations of immediate sensory outcomes or motor commands. This disruption in sensory predictions may contribute to altered neurophysiology, such as cross-modal brain activity, and other persistent clinical deficits.
DESIGN
Narrative review RESULTS/FINDINGS: Following ACL injury and reconstruction, the knee and nervous system experience various neurophysiological alterations to overcome elevated sensory uncertainty and inaccurate sensory predictions, contributing to persistent motor deficits.
CONCLUSIONS
We provide a theoretical case based on compelling evidence that suggests prolonged impairment after ACL injury may be secondary to uncertainty in knee sensory perception. Future research should consider testing the NOISE hypothesis by creating a paradigm that examines dynamic joint stability in response to unexpected perturbations. This approach would help assess motor coordination errors and drive the development of clinical strategies aimed at reducing sensory uncertainty following ACL reconstruction.
背景
前交叉韧带(ACL)对于维持膝关节稳定性至关重要,但在体育活动中易发生断裂。尽管通过手术恢复了被动或机械稳定性,但患者仍难以恢复力量和之前的功能水平。最近的研究致力于了解ACL损伤后神经系统的相关变化如何导致损伤和重建后感觉运动控制方面的缺陷。我们假设这些挑战部分是由于感觉运动不确定性增加所致,这种状态会降低运动控制的精度。
目的
本综述提出了ACL噪声(感觉预期受损导致的神经可塑性结果)假说,重新梳理现有文献,以证明ACL损伤和重建后感觉噪声增加会扰乱感觉预测,即对即时感觉结果或运动指令的预期。这种感觉预测的中断可能会导致神经生理学改变,如跨模态脑活动,以及其他持续的临床缺陷。
设计
叙述性综述
结果/发现:ACL损伤和重建后,膝关节和神经系统会经历各种神经生理学改变,以克服升高的感觉不确定性和不准确的感觉预测,从而导致持续的运动缺陷。
结论
我们基于有力证据提供了一个理论案例,表明ACL损伤后长期功能受损可能继发于膝关节感觉感知的不确定性。未来的研究应考虑通过创建一种范式来检验噪声假说,该范式可检查对意外扰动的动态关节稳定性。这种方法将有助于评估运动协调误差,并推动旨在减少ACL重建后感觉不确定性的临床策略的发展。
Zotero 插件