Michael H Stone, Guy Hornsby, Satoshi Mizuguchi, Kimitake Sato, Daniel Gahreman, Marco Duca, Kevin Carroll, Michael W Ramsey, Margaret E Stone, G Gregory Haff
{"title":"自由重量深蹲在体育运动中的应用:叙述性综述--深蹲动作、适应性和运动表现》:生理学。","authors":"Michael H Stone, Guy Hornsby, Satoshi Mizuguchi, Kimitake Sato, Daniel Gahreman, Marco Duca, Kevin Carroll, Michael W Ramsey, Margaret E Stone, G Gregory Haff","doi":"10.1519/JSC.0000000000004838","DOIUrl":null,"url":null,"abstract":"<p><strong>Abstract: </strong>Stone, MH, Hornsby, G, Mizuguchi, S, Sato, K, Gahreman, D, Duca, M, Carroll, K, Ramsey, MW, Stone, ME, and Haff, GG. The use of free weight squats in sports: a narrative review-squatting movements, adaptation, and sports performance: physiological. J Strength Cond Res 38(8): 1494-1508, 2024-The squat and its variants can provide numerous benefits including positively affecting sports performance and injury prevention, injury severity reduction, and rehabilitation. The positive benefits of squat are likely the result of training-induced neural alterations and mechanical and morphological adaptations in tendons, skeletal muscles, and bones, resulting in increased tissue stiffness and cross-sectional area (CSA). Although direct evidence is lacking, structural adaptations can also be expected to occur in ligaments. These adaptations are thought to beneficially increase force transmission and mechanical resistance (e.g., resistance to mechanical strain) and reduce the likelihood and severity of injuries. Adaptations such as these, also likely play an important role in rehabilitation, particularly for injuries that require restricted use or immobilization of body parts and thus lead to a consequential reduction in the CSA and alterations in the mechanical properties of tendons, skeletal muscles, and ligaments. Both volume and particularly intensity (e.g., levels of loading used) of training seem to be important for the mechanical and morphological adaptations for at least skeletal muscles, tendons, and bones. Therefore, the training intensity and volume used for the squat and its variations should progressively become greater while adhering to the concept of periodization and recognized training principles.</p>","PeriodicalId":2,"journal":{"name":"ACS Applied Bio Materials","volume":"38 8","pages":"1494-1508"},"PeriodicalIF":4.6000,"publicationDate":"2024-08-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"The Use of Free Weight Squats in Sports: A Narrative Review-Squatting Movements, Adaptation, and Sports Performance: Physiological.\",\"authors\":\"Michael H Stone, Guy Hornsby, Satoshi Mizuguchi, Kimitake Sato, Daniel Gahreman, Marco Duca, Kevin Carroll, Michael W Ramsey, Margaret E Stone, G Gregory Haff\",\"doi\":\"10.1519/JSC.0000000000004838\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Abstract: </strong>Stone, MH, Hornsby, G, Mizuguchi, S, Sato, K, Gahreman, D, Duca, M, Carroll, K, Ramsey, MW, Stone, ME, and Haff, GG. The use of free weight squats in sports: a narrative review-squatting movements, adaptation, and sports performance: physiological. J Strength Cond Res 38(8): 1494-1508, 2024-The squat and its variants can provide numerous benefits including positively affecting sports performance and injury prevention, injury severity reduction, and rehabilitation. The positive benefits of squat are likely the result of training-induced neural alterations and mechanical and morphological adaptations in tendons, skeletal muscles, and bones, resulting in increased tissue stiffness and cross-sectional area (CSA). Although direct evidence is lacking, structural adaptations can also be expected to occur in ligaments. These adaptations are thought to beneficially increase force transmission and mechanical resistance (e.g., resistance to mechanical strain) and reduce the likelihood and severity of injuries. Adaptations such as these, also likely play an important role in rehabilitation, particularly for injuries that require restricted use or immobilization of body parts and thus lead to a consequential reduction in the CSA and alterations in the mechanical properties of tendons, skeletal muscles, and ligaments. Both volume and particularly intensity (e.g., levels of loading used) of training seem to be important for the mechanical and morphological adaptations for at least skeletal muscles, tendons, and bones. 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引用次数: 0
摘要
Abstract: Stone, MH, Hornsby, G, Mizuguchi, S, Sato, K, Gahreman, D, Duca, M, Carroll, K, Ramsey, MW, Stone, ME, and Haff, GG.自由重量深蹲在运动中的应用:叙述性综述--深蹲动作、适应性和运动表现:生理学。J Strength Cond Res 38(8):1494-1508,2024-深蹲及其变体可带来诸多益处,包括对运动表现和伤害预防、伤害严重程度减轻和康复产生积极影响。深蹲的积极益处可能是训练引起的神经改变以及肌腱、骨骼肌和骨骼的机械和形态适应,从而增加组织硬度和横截面积(CSA)的结果。虽然缺乏直接证据,但预计韧带也会发生结构性适应。这些适应性被认为能有益地增加力的传递和机械阻力(如对机械应变的阻力),并降低受伤的可能性和严重程度。诸如此类的适应性还可能在康复中发挥重要作用,特别是对于需要限制使用或固定身体部位的损伤,从而导致肌腱、骨骼肌和韧带的CSA减少和机械特性改变。训练量,尤其是训练强度(如使用的负荷水平)似乎对至少骨骼肌、肌腱和骨骼的机械和形态适应性都很重要。因此,深蹲及其变式的训练强度和训练量应逐步增加,同时遵守周期化概念和公认的训练原则。
The Use of Free Weight Squats in Sports: A Narrative Review-Squatting Movements, Adaptation, and Sports Performance: Physiological.
Abstract: Stone, MH, Hornsby, G, Mizuguchi, S, Sato, K, Gahreman, D, Duca, M, Carroll, K, Ramsey, MW, Stone, ME, and Haff, GG. The use of free weight squats in sports: a narrative review-squatting movements, adaptation, and sports performance: physiological. J Strength Cond Res 38(8): 1494-1508, 2024-The squat and its variants can provide numerous benefits including positively affecting sports performance and injury prevention, injury severity reduction, and rehabilitation. The positive benefits of squat are likely the result of training-induced neural alterations and mechanical and morphological adaptations in tendons, skeletal muscles, and bones, resulting in increased tissue stiffness and cross-sectional area (CSA). Although direct evidence is lacking, structural adaptations can also be expected to occur in ligaments. These adaptations are thought to beneficially increase force transmission and mechanical resistance (e.g., resistance to mechanical strain) and reduce the likelihood and severity of injuries. Adaptations such as these, also likely play an important role in rehabilitation, particularly for injuries that require restricted use or immobilization of body parts and thus lead to a consequential reduction in the CSA and alterations in the mechanical properties of tendons, skeletal muscles, and ligaments. Both volume and particularly intensity (e.g., levels of loading used) of training seem to be important for the mechanical and morphological adaptations for at least skeletal muscles, tendons, and bones. Therefore, the training intensity and volume used for the squat and its variations should progressively become greater while adhering to the concept of periodization and recognized training principles.