Sensorimotor control of functional joint stability: Scientific concepts, clinical considerations, and the articuloneuromuscular cascade paradigm in peripheral joint injury

IF 2.2 3区 医学 Q1 REHABILITATION Musculoskeletal Science and Practice Pub Date : 2024-09-29 DOI:10.1016/j.msksp.2024.103198
Nicholas C. Clark
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Abstract

Human movement depends on sensorimotor control. Sensorimotor control refers to central nervous system (CNS) control of joint stability, posture, and movement, all of which are effected via the sensorimotor system. Given the nervous, muscular, and skeletal systems function as an integrated “neuromusculoskeletal system” for the purpose of executing movement, musculoskeletal conditions can result in a cascade of impairments that affect negatively all three systems. The purpose of this article is to revisit concepts in joint stability, sensorimotor control of functional joint stability (FJS), joint instability, and sensorimotor impairments contributing to functional joint instability. This article differs from historical work because it updates previous models of joint injury and joint instability by incorporating more recent research on CNS factors, skeletal muscle factors, and tendon factors. The new ‘articuloneuromuscular cascade paradigm’ presented here offers a framework for facilitating further investigation into physiological and biomechanical consequences of joint injury and, in turn, how these follow on to affect physical activity (functional) capability. Here, the term ‘injury’ represents traumatic joint injury with a focus is on peripheral joint injury. Understanding the configuration of the sensorimotor system and the cascade of post-injury sensorimotor impairments is particularly important for clinicians reasoning rational interventions for patients with mechanical instability and functional instability. Concurrently, neurocognitive processing and neurocognitive performance are also addressed relative to feedforward neuromuscular control of FJS. This article offers itself as an educational resource and scientific asset to contribute to the ongoing research and applied practice journey for developing optimal peripheral joint injury rehabilitation strategies.
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功能性关节稳定性的感觉运动控制:外周关节损伤的科学概念、临床考虑和关节神经肌肉级联范式。
人体运动依赖于感觉运动控制。感觉运动控制是指中枢神经系统(CNS)对关节稳定性、姿势和运动的控制,所有这些都是通过感觉运动系统实现的。鉴于神经、肌肉和骨骼系统作为一个综合的 "神经-肌肉-骨骼系统 "在执行运动时发挥着作用,因此肌肉骨骼状况会导致一系列损伤,对所有三个系统都产生负面影响。本文旨在重新审视关节稳定性、功能性关节稳定性(FJS)的感觉运动控制、关节不稳定性以及导致功能性关节不稳定性的感觉运动损伤等方面的概念。本文不同于以往的研究,因为它结合了中枢神经系统因素、骨骼肌因素和肌腱因素的最新研究成果,更新了以往的关节损伤和关节不稳定模型。本文提出的新 "关节神经肌肉级联范式 "提供了一个框架,有助于进一步研究关节损伤的生理和生物力学后果,以及这些后果如何反过来影响身体活动(功能)能力。在这里,"损伤 "一词代表创伤性关节损伤,重点是外周关节损伤。了解感知运动系统的构造以及受伤后感知运动障碍的一系列过程,对于临床医生合理干预机械性不稳定和功能性不稳定患者尤为重要。同时,本文还探讨了与 FJS 的前馈神经肌肉控制有关的神经认知处理和神经认知表现。这篇文章作为一种教育资源和科学资产,可为正在进行的研究和应用实践之旅做出贡献,以制定最佳的外周关节损伤康复策略。
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来源期刊
Musculoskeletal Science and Practice
Musculoskeletal Science and Practice Health Professions-Physical Therapy, Sports Therapy and Rehabilitation
CiteScore
4.10
自引率
8.70%
发文量
152
审稿时长
48 days
期刊介绍: Musculoskeletal Science & Practice, international journal of musculoskeletal physiotherapy, is a peer-reviewed international journal (previously Manual Therapy), publishing high quality original research, review and Masterclass articles that contribute to improving the clinical understanding of appropriate care processes for musculoskeletal disorders. The journal publishes articles that influence or add to the body of evidence on diagnostic and therapeutic processes, patient centered care, guidelines for musculoskeletal therapeutics and theoretical models that support developments in assessment, diagnosis, clinical reasoning and interventions.
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