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运用IsoMed2000型肌力测试系统,选择60°/s和240°/s,对23名优秀男子散打运动员(健将级9名为A组,国家一级14名为B组)支撑腿和进攻腿髋、膝、踝屈伸肌群各项等速肌力指标进行测量。探讨优秀散打运动员支撑腿和进攻腿髋、膝、踝关节等速肌力特征,分析两腿的肌力差异,判断肌力平衡、关节稳定,运动员等级水平对肌力的影响。结果:国家健将级散打运动员双侧下肢髋、膝、踝关节等速肌力及稳定性显著优于国家一级运动员,支撑腿主要体现力的有效传递及稳定性,进攻腿主要体现屈伸肌力大小。 相似文献
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刘林生 《山东体育学院学报》2013,29(4)
采用德国产IsoMed2000等速肌力测试仪,在2012年冬训前对9名省优秀110米栏运动员的髋、膝和踝关节进行60°/s和240°/s的屈、伸模式测试,探讨受试者下肢关节肌力的特点,为冬训针对性力量训练提供定量依据,同时对预防下肢关节、肌肉损伤起到积极作用. 相似文献
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我国优秀10m跳台男子运动员下肢肌肉力量特征研究 总被引:1,自引:0,他引:1
以现役国家队4名10 m跳台运动员为研究对象,选取相对峰值力矩为评定指标,通过运用MERAC等速肌力测试系统,测试速度分别是60°/s和240°/s,对跳水运动员下肢髋、膝和踝关节主动肌群(伸肌群)的肌力特征进行综合研究,探讨高水平跳水运动员下肢主动肌群的特征.结果显示,下肢关节相对肌力矩水平高是完成高难跳台技术的基础之一;下肢各关节屈伸比值低,伸肌群力量明显大于屈肌群;动员髋关节快速屈伸的肌群的比例相对较高,而膝和踝关节快速屈伸时动员的肌群相对较少;膝关节左、右侧伸肌群力量接近,髋关节左侧大于右侧;随着测试速度的增加,髋关节在下肢总力矩的百分比增加. 相似文献
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目的:分析竞走运动员核心肌群的功能性特征,探讨核心肌群功能性特征对竞走技术的影响。方法:对我国6 名优秀20 km 竞走运动员主要核心肌群进行表面肌电测试和等动肌力测试。结果:(1)左右侧同名肌的MPF 和AEMG 存在显著性差异(P<0.05)。BF 和RF 协调性随运动速度的提高而下降;导致支撑腿着地时膝角减小5.5°、摆动时膝角增大15.4°。(2)核心肌群等动肌力不平衡。躯干左右侧旋转和屈伸相对峰力矩之比分别为8.7%和37%。髋膝关节屈伸肌力的总不平衡比为分别为34.3%±45.7%和18.8%±5.9%。肌力的不平衡导致支撑阶段两侧髋关节角位移差达到19.4°±9.9°,膝关为2.2°±1.6°。结论:核心肌群的上述特征将导致运动中身体稳定性的下降。建议运动员加强核心肌群的协调性与力量的平衡性训练。 相似文献
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目的:研究我国男子自由式摔跤运动员主要关节的肌力表现,找出肌力规律和特征;方法:通过等动测试仪(ISOMED-2000)对我国优秀男子自由式摔跤运动员(共53名)进行主要关节的肌力测试与分析,测试角速度分别为0°/s和180°/s;结果:1)相对最大力矩、相对平均峰力矩及相对平均功率普遍表现出伸肌大于屈肌的特征;2)各关节在两种角速度下,存在同侧屈伸比和异侧同名肌群比较上的显著性差异(P<0.05),即各关节存在不同程度的失衡性;3)随着角速度的增加,各主要关节的相对最大力矩基本呈现递减特征,但腰背部肌群呈现递增的特征,并且存在不同角速度上的显著性差异(P<0.05),其屈/伸比值在180°/s时仍然小于1.结论:我国优秀男子自由式摔跤运动员在不同关节上存在肌力的双侧不对称性,并且腰背部表现出对伸肌的高度要求. 相似文献
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跳远运动员专项成绩与专项身体素质相关关系的研究 总被引:1,自引:0,他引:1
对我国 10名男子跳远运动员的专项成绩、专项身体素质以及下肢髋、膝和踝 3大关节等速屈伸肌力矩等指标进行测试。通过相关分析探讨了跳远运动员专项身体素质、下肢力量水平与专项成绩之间的关系 ,发现髋关节屈伸肌肌力、膝关节屈伸肌肌力和伸肌的离心肌力以及踝关节的跖屈肌力与跳远成绩相关 相似文献
7.
女子手球运动员膝、踝关节屈伸肌群等速测试结果分析 总被引:1,自引:0,他引:1
运用CON-TREX等速测试系统对广东省女子手球运动员的膝和踝关节进行等速向心测试.结果发现:受试队员两关节伸肌的相对峰力矩值均显著大于屈肌;右膝关节屈伸肌比值在60(°)/s测试速度下偏高;踝关节伸屈肌相对峰力矩的比值为39%~48%;大部分受试队员两侧踝关节同名肌峰力矩差值百分比均大于10%.结果说明:[1]女手球队员膝关节和踝关节的伸肌力量均大于屈肌力量.[2]女手球队员右膝关节屈伸肌力量比例不合理;踝关节屈伸肌力量比例合理.[3]大部分队员两侧踝关节同名肌力量不平衡,这同手球的专项特点以及力量训练有关. 相似文献
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对2007-2012年间广东省集体小球类项目(手球、曲棍球、垒球)运动损伤后等速肌力康复效果进行归纳总结。应用等速肌力测试系统为广东集体小球项目运动员提供了419人次5 872关节次等速康复训练,康复前后进行角速度为60°/s的膝、肩关节等速肌力测试,以及角速度为30°/s的踝关节等速肌力测试,结果发现:(1)膝关节损伤发生率最高,达到60.88%,踝、肩也是损伤多发部位,整体看来,下肢损伤发生率高于上肢。(2)各项目运动员经过一段时间的等速康复训练后,关节等速肌力得到显著提高。结论:(1)在集体小球项目中,运动损伤发生部位与运动专项特点密切相关,损伤发生率从高到低依次为膝、踝、肩、腰背、髋。(2)等速肌力康复作为一种康复手段,在集体小球项目运动员运动损伤过程中效果明显,提供了客观可靠的量化指标。 相似文献
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This study aimed to assess the effects of core stability training on lower limbs’ muscular asymmetries and imbalances in team sport. Twenty footballers were divided into two groups, either core stability or control group. Before each daily practice, core stability group (n = 10) performed a core stability training programme, while control group (n = 10) did a standard warm-up. The effects of the core stability training programme were assessed by performing isokinetic tests and single-leg countermovement jumps. Significant improvement was found for knee extensors peak torque at 3.14 rad · s?1 (14%; P < 0.05), knee flexors peak torque at 1.05 and 3.14 rad · s?1 (19% and 22% with P < 0.01 and P < 0.01, respectively) and peak torque flexors/extensors ratios at 1.05 and 3.14 rad · s?1 (7.7% and 8.5% with P < 0.05 and P < 0.05, respectively) only in the core stability group. The jump tests showed a significant reduction in the strength asymmetries in core stability group (?71.4%; P = 0.02) while a concurrent increase was seen in the control group (33.3%; P < 0.05). This study provides practical evidence in combining core exercises for optimal lower limbs strength balance development in young soccer players. 相似文献
12.
Abstract The present study aimed to quantify the intensity of lower extremity plyometric exercises by determining joint mechanical output. Ten men (age, 27.3 ± 4.1 years; height, 173.6 ± 5.4 cm; weight, 69.4 ± 6.0 kg; 1-repetition maximum [1RM] load in back squat 118.5 ± 12.0 kg) performed the following seven plyometric exercises: two-foot ankle hop, repeated squat jump, double-leg hop, depth jumps from 30 and 60 cm, and single-leg and double-leg tuck jumps. Mechanical output variables (torque, angular impulse, power, and work) at the lower limb joints were determined using inverse-dynamics analysis. For all measured variables, ANOVA revealed significant main effects of exercise type for all joints (P < 0.05) along with significant interactions between joint and exercise (P < 0.01), indicating that the influence of exercise type on mechanical output varied among joints. Paired comparisons revealed that there were marked differences in mechanical output at the ankle and hip joints; most of the variables at the ankle joint were greatest for two-foot ankle hop and tuck jumps, while most hip joint variables were greatest for repeated squat jump or double-leg hop. The present results indicate the necessity for determining mechanical output for each joint when evaluating the intensity of plyometric exercises. 相似文献
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Mohsen Damavandi Mansour Eslami David J. Pearsall 《Sports biomechanics / International Society of Biomechanics in Sports》2017,16(1):1-12
Running on side-sloped surfaces is a common obstacle in the environment; however, how and to what extent the lower extremity kinematics adapt is not well known. The purpose of this study was to determine the effects of side-sloped surfaces on three-dimensional kinematics of hip, knee, and ankle during stance phase of running. Ten healthy adult males ran barefoot along an inclinable runway in level (0°) and side-sloped (10° up-slope and down-slope inclinations, respectively) configurations. Right hip, knee, and ankle angles along with their time of occurrence were analysed using repeated measures MANOVA. Up-slope hip was more adducted (p = 0.015) and internally rotated (p = 0.030). Knee had greater external rotations during side-sloped running at heel-strike (p = 0.005), while at toe-off, it rotated externally and internally during up-slope and down-slope running, respectively (p = 0.001). Down-slope ankle had greatest plantar flexion (p = 0.001). Up-slope ankle had greatest eversion compared with down-slope (p = 0.043), while it was more externally rotated (p = 0.030). These motion patterns are necessary to adjust the lower extremity length during side-sloped running. Timing differences in the kinematic events of hip adduction and external rotation, and ankle eversion were observed (p = 0.006). Knowledge on these alterations is a valuable tool in adopting strategies to enhance performance while preventing injury. 相似文献
14.
The shoe can be thought of as a powerful tool for controlling human movement. A well‐designed shoe can assist in reducing the number of lower limb injuries arising from sport and training activities. The purpose of this paper is to present a summary of the main thrusts of research in this field by means of a digest of current thinking and practice. The paper initially presents a survey of work in the biomechanical field with particular reference to the design of footwear. A review of the types of injury acquired by sportsmen in both training and playing is then followed by a discussion of aspects of footwear design and their role in both contributing to and preventing lower limb injury. Finally, the paper considers support and shock absorption techniques in the context of footwear design. It is concluded that research has been wide‐ranging and thorough. However, the complexity of the biomechanical system being studied has prevented definitive recommendations for the prevention of injury being made in every case. Nonetheless, it is clear that a number of guiding principles have been established which should be the basis for future developments in footwear design to minimize the chance of lower limb injury. 相似文献
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The aim of the present study was to examine how the recovery of physiological functioning of the leg muscles after high-intensity eccentric exercise such as downhill running could be promoted by aqua exercise for a period until the damaged muscle had recovered almost completely. Ten male long-distance runners were divided equally into an aqua exercise group and a control group. From the first day (Day 0) to the fourth day (Day 3), the participants completed a questionnaire on muscle soreness, and serum creatine kinase activity, muscle power, flexibility, whole-body reaction time and muscle stiffness were measured. After measurements on Day 0, the participants performed downhill running (three 5 min runs with a 5 min rest interval at -10%, 335.7 +/- 6.1 m . min-1). The aqua exercise group performed walking, jogging and jumping in water on three successive days following the downhill running on Day 0 for 30 min each day. Muscle power was reduced on Day 1 in the control group (P < 0.05). Muscle soreness in the calf on Day 3 was greater in the control group than that in the aqua exercise group (P < 0.05). In the aqua exercise group, muscle stiffness in the calf was less than that in the control group over 4 days (time main effect: P < 0.05; group x time interaction: P < 0.05). We conclude that aqua exercise promoted physiological functioning of the muscles in the legs after high-intensity downhill running for a period until the damaged muscles had recovered almost completely. 相似文献
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Hughes G Watkins J Owen N 《Sports biomechanics / International Society of Biomechanics in Sports》2008,7(3):333-341
The aim of this study was to investigate gender differences in knee valgus angle and inter-knee and inter-ankle distances in university volleyball players when performing opposed block jump landings. Six female and six male university volleyball players performed three dynamic trials each for which they were instructed to jump up and block a volleyball suspended above a net set at the height of a standard volleyball net as it was spiked against them by an opposing player. Knee valgus/varus, inter-knee distance, and inter-ankle distance (absolute and relative to height) were determined during landing using three-dimensional motion analysis. Females displayed significantly greater maximum valgus angle and range of motion than males. This may increase the risk of ligament strain in females compared with males. Minimum absolute inter-knee distance was significantly smaller, and absolute and relative inter-knee displacement during landing significantly greater, in females than males. Both absolute and relative inter-ankle displacement during landing was significantly greater in males than females. These findings suggest that the gender difference in the valgus angle of the knee during two-footed landing is influenced by gender differences in the linear movement of the ankles as well as the knees. Coaches should therefore develop training programmes to focus on movement of both the knee and ankle joints in the frontal plane in order to reduce the knee valgus angle during landing, which in turn may reduce the risk of non-contact anterior cruciate ligament injury. 相似文献
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The aim of this study was to analyse lower limb work patterns in world-class race walkers. Seventeen male and female athletes race walked at competitive pace. Ground reaction forces (1000 Hz) and high-speed videos (100 Hz) were recorded and normalised joint moments, work and power, stride length, stride frequency and speed estimated. The hip flexors and extensors were the main generators of energy (24.5 J (±6.9) and 40.3 J (±8.3), respectively), with the ankle plantarflexors (16.3 J (±4.3)) contributing to the energy generated during late stance. The knee generated little energy but performed considerable negative work during swing (?49.1 J (±8.7)); the energy absorbed by the knee extensors was associated with smaller changes in velocity during stance (r = .783, P < .001), as was the energy generated by the hip flexors (r = ?.689, P = .002). The knee flexors did most negative work (?38.6 J (±5.8)) and the frequent injuries to the hamstrings are probably due to this considerable negative work. Coaches should note the important contributions of the hip and ankle muscles to energy generation and the need to develop knee flexor strength in reducing the risk of injury. 相似文献
18.
Gerwyn Hughes James Watkins Nick Owen 《Sports biomechanics / International Society of Biomechanics in Sports》2013,12(3):333-341
The aim of this study was to investigate gender differences in knee valgus angle and inter-knee and inter-ankle distances in university volleyball players when performing opposed block jump landings. Six female and six male university volleyball players performed three dynamic trials each for which they were instructed to jump up and block a volleyball suspended above a net set at the height of a standard volleyball net as it was spiked against them by an opposing player. Knee valgus/varus, inter-knee distance, and inter-ankle distance (absolute and relative to height) were determined during landing using three-dimensional motion analysis. Females displayed significantly greater maximum valgus angle and range of motion than males. This may increase the risk of ligament strain in females compared with males. Minimum absolute inter-knee distance was significantly smaller, and absolute and relative inter-knee displacement during landing significantly greater, in females than males. Both absolute and relative inter-ankle displacement during landing was significantly greater in males than females. These findings suggest that the gender difference in the valgus angle of the knee during two-footed landing is influenced by gender differences in the linear movement of the ankles as well as the knees. Coaches should therefore develop training programmes to focus on movement of both the knee and ankle joints in the frontal plane in order to reduce the knee valgus angle during landing, which in turn may reduce the risk of non-contact anterior cruciate ligament injury. 相似文献
19.
The purpose of this study was to examine the effects of external load on vertical ground reaction force, and linear and angular kinematics, during squats. Eight males aged 22.1 +/- 0.8 years performed maximal concentric squats using loads ranging from 7 to 70% of one-repetition maximum on a force plate while linear barbell velocity and the angular kinematics of the hip, knee and ankle were recorded. Maximum, average and angle-specific values were recorded. The ground reaction force ranged from 1.67 +/- 0.20 to 3.21 +/- 0.29 times body weight and increased significantly as external load increased (P < 0.05). Bar linear velocity ranged from 0.54 +/- 0.11 to 2.50 +/- 0.50 m x s(-1) and decreased significantly with increasing external load (P < 0.05). Hip, knee and ankle angles at maximum ground reaction force were affected by external load (P < 0.05). The force-barbell velocity curves were fitted using linear models with coefficients (r2) ranging from 0.59 to 0.96. The results suggest that maximal force exertion during squat exercises is not achieved at the same position of the lower body as external load is increased. In contrast, joint velocity coordination does not change as load is increased. The force-velocity relationship was linear and independent from the set of data used for its determination. 相似文献
20.
Eleftherios Kellis Fotini Arambatzi Christos Papadopoulos 《Journal of sports sciences》2013,31(10):1045-1055
The purpose of this study was to examine the effects of external load on vertical ground reaction force, and linear and angular kinematics, during squats. Eight males aged 22.1?±?0.8 years performed maximal concentric squats using loads ranging from 7 to 70% of one-repetition maximum on a force plate while linear barbell velocity and the angular kinematics of the hip, knee and ankle were recorded. Maximum, average and angle-specific values were recorded. The ground reaction force ranged from 1.67?±?0.20 to 3.21?±?0.29 times body weight and increased significantly as external load increased (P?<?0.05). Bar linear velocity ranged from 0.54?±?0.11 to 2.50?±?0.50?m?·?s?1 and decreased significantly with increasing external load (P?<?0.05). Hip, knee and ankle angles at maximum ground reaction force were affected by external load (P?<?0.05). The force?–?barbell velocity curves were fitted using linear models with coefficients (r 2) ranging from 0.59 to 0.96. The results suggest that maximal force exertion during squat exercises is not achieved at the same position of the lower body as external load is increased. In contrast, joint velocity coordination does not change as load is increased. The force?–?velocity relationship was linear and independent from the set of data used for its determination. 相似文献