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青年女性着高跟鞋平地行走时步态的生物力学研究 总被引:6,自引:0,他引:6
通过SIMI-MOTION录像解析系统和F-scan足底压力分布解析系统对青年女性穿高跟鞋行走时的步态进行运动学和动力学测量和分析。结果表明:青少年女性穿高跟鞋行走时的步态特征表现为:步长短,步速慢,步态周期长,重心起伏幅度大,单支撑时相占支撑时相比例低,说明青少年女性穿高跟鞋行走时下肢肌肉机能减弱;青少年女性穿跟高6.5cm以上的高跟鞋行走时,足底第一跖趾关节最大受力值是青少年女性穿球鞋行走时该点最大受力值的4倍,是青少年女性穿中跟鞋和松糕鞋行走时该点最大受力值的2倍。 相似文献
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目的:探讨分析体育舞蹈专业女大学生足底压力的分布特征,为参加体育舞蹈训练的普通大学生和体育舞蹈专业学生提供数据参考。方法:采用footscan USB足底压力平板测试系统对8名普通女大学生和8名体育舞蹈专业女大学生进行正常行走、伦巴走步的足底压力测试。结果:裸足正常行走过程中,体育舞蹈专业和普通女大学生在足底各分区压力分布基本一致,无显著性差异;普通女大学生在第2-5趾、第1跖骨、第2跖骨、第5跖骨、足中部区域左、右差异有统计学意义,而体育舞蹈专业女大学生除了在第1趾存在差异外,左右足无显著性差异;体育舞蹈专业大学生在伦巴走步过程中,压力中心轨迹与正常行走时有很大差异。这种差异在足底各分区压力-时间积分中表现为,左右脚的脚前掌、足中部压力-时间积分变大,足跟部位压力-时间积分明显变小,且与正常行走相比有显著性差异,做舞蹈动作时,压力主要集中于脚前掌和足弓部位。结论:体育舞蹈专业女大学生在做舞蹈动作时,压力主要集中于脚前掌和足中部,且外侧跖骨受力显著。参加体育舞蹈训练时必须穿着适当高度、适当硬度的舞蹈鞋来缓解脚前掌和足中部的压力。 相似文献
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通过采用足部不同外源性生物力学手段,即穿着两种不同防震功效的运动鞋与裸足状态下对原地纵跳时足底压强分布区域特征、MMP(mean maximum pressure)平均最大压强值特征、MVP(mean value pressure)平均压强值特征、纵跳落地缓冲压力值变化的时间差异性、X轴与Y轴向压力的合力特征的比较研究,探究运动鞋的不同防震系统设计在人体进行原地纵跳时,对足底的缓震功效的形成机制,从而指导设计运动鞋,并且在一定程度上加强人们对防震运动鞋的认识。 相似文献
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应用运动生物力学原理,对乒乓球运动中三种步法的足底压力进行分析,得到以下主要结论:乒乓球典型步法动作过程中双脚的足底压力主要承载区域集中在足前区,足中区受力不明显。击球发力脚足后区足底压力峰值交叉步步法最大,并步步法次之,跨步步法最小。前足中区为足前区较为稳定的主要受力区域,前足外侧区和前足内侧区所受足底压力峰值的大小与步法的动作形式有关。 相似文献
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我国冬季两项优秀运动员站立和行走足平衡能力研究 总被引:7,自引:1,他引:6
通过Footscan足底压力步态分析系统测试我国冬季两项优秀运动员站立和行走时足底压力分布并进行分析讨论。结果表明,运动员赤足站立的平衡能力高于穿鞋,双脚站立时闭眼稳定能力高于睁眼,单脚站立时左脚好于右脚;赤足行走支撑足足底压力时间曲线具有双峰特征、压力中心在横向摆动幅度较小;大部分运动员在足中部支撑阶段出现足内、外翻现象,建议教练指导队员加以注意并选用适合的鞋或添加鞋垫,增加足背屈时对应肌腱、韧带专向力量的练习,减少行走时足内外翻情况的出现,避免身体损伤出现。 相似文献
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目的:本实验通过测量在赤脚、平底鞋及10cm高跟鞋3种条件下,女性步态的特征,分析不同鞋子对足部及步态的影响。方法:使用G-WALK三维步态分析系统进行赤脚、平底鞋及10cm高跟鞋条件下的行走转身实验,测量其不同鞋子下步速、步长及步态周期。结果:本实验得出穿10cm高跟鞋时行走的步态特征是步速慢,步长变短,周期长。结论:因此长期穿高跟鞋对女性下肢及步态影响较大,会对身体造成伤害,建议少穿或者不穿高跟鞋。 相似文献
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脑力、体力劳动者足底压力参数分布特征及评定 总被引:3,自引:0,他引:3
通过分析脑力、体力劳动者自然行走过程中峰力值(maxforce,MF)、达峰力值时间(time to max force)、冲量(impulse)等参数特征,探讨职业对足底压力分布的影响。采用比利时Footscan USB2平板式足底压测试系统对50名普通健康脑力劳动者和63名普通健康体力劳动者进行自然行走过程中动态足底压力测试。结果显示:脑力、体力劳动者左脚Toel、Toe2-5、Heel Lateral区域平均峰值(MF)存在显著性差异,右脚Mid foot、Meta5区域MF差异存在非常显著性(P〈0.01),左、右双足平均峰力值(MF)最大值均出现在足跟内侧(Heel Medial)。脑力、体力劳动者足底各区域达峰力值的时间(TMF),左右双足差异均存在非常显著性(P〈0.01)。脑力劳动者与体力劳动者行走过程中左足在Toel、Toe2-5、Meta1、Heel Medial、Heel Lateral区域的冲量(Impulse,IP),体力劳动者明显大于脑力劳动者且具有显著性差异〈0.01),体力劳动者与脑力劳动者的足底MF与足弓接触面积及足角度存在不同程度的相关。结果说明:脑力劳动者与体力劳动者行走过程中左右双足的平均峰力值、接触面积、冲量等参数都存在不同程度的差异,可能与长期从事的职业不同有关,建议经常进行体育锻炼或定制矫形鞋垫,可以缓解足底压力高压区的过度集中,不断维护足健康水平。 相似文献
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以上海市蹦床队5名一线男子运动员为研究对象,通过视频与足底压力同步测试的研究方法,对蹦床运动员的预跳和5个基本的技术动作进行测试,研究男子蹦床运动员在完成不同基本技术动作过程中足底压力的分布的特征及足底压力分布的一般规律。为蹦床运动员进行科学训练提供理论依据,为蹦床运动员运动技术诊断提供客观指标。研究结论:运动员完成不同基本技术动作足底压力分布特征规律相同,足底压力合力变化、压强峰值分布和压力中心变化无显著性差异。触网起跳过程双足压力合力呈单峰曲线网面达最低点时双足压力合力最大,双足压力合力最大值可达体重的3.04倍。压强峰值表现为双足第五趾骨区较高。运动员在起网蹬伸阶段双足呈现出压力中心偏移现象,与运动员起跳过程中双足用力不均有关。 相似文献
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采用德国Novel公司的Pedar鞋垫式(in-sole)足底压力测量系统,对40名中学生赤足与穿着慢跑鞋在1.5m·s-1、3.0m·s8-1和5.0m·s-13个速度下的步态周期、最大地面反作用力、最大足底压强、平均足底压强和力量-时间积分值进行分析,探讨赤足运动与穿鞋运动的生物力学特性,以及引起赤足和穿鞋运动之间差异的原因,为指导青少年健康运动提供科学、可靠的参考依据.研究结果证实,赤足运动与穿鞋运动在步态、用力方式、压力分布上都存在显著差异,穿着慢跑鞋运动可有效降低运动损伤出现的几率,为青少年的健康运动提供基础保障. 相似文献
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Brian Thomas Weaver Kathleen Fitzsimons Jerrod Braman 《Sports biomechanics / International Society of Biomechanics in Sports》2016,15(3):370-384
The goal of the current study was to expand on previous work to validate the use of pressure insole technology in conjunction with linear regression models to predict the free torque at the shoe–surface interface that is generated while wearing different athletic shoes. Three distinctly different shoe designs were utilised. The stiffness of each shoe was determined with a material’s testing machine. Six participants wore each shoe that was fitted with an insole pressure measurement device and performed rotation trials on an embedded force plate. A pressure sensor mask was constructed from those sensors having a high linear correlation with free torque values. Linear regression models were developed to predict free torques from these pressure sensor data. The models were able to accurately predict their own free torque well (RMS error 3.72 ± 0.74 Nm), but not that of the other shoes (RMS error 10.43 ± 3.79 Nm). Models performing self-prediction were also able to measure differences in shoe stiffness. The results of the current study showed the need for participant–shoe specific linear regression models to insure high prediction accuracy of free torques from pressure sensor data during isolated internal and external rotations of the body with respect to a planted foot. 相似文献
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《运动与健康科学(英文)》2014,3(2):122-130
PurposeTo observe the relative change in foot-strike pattern, pressure characteristics, surface electromyography (sEMG) recordings, and stride characteristics in forefoot strike runners wearing both minimalist and traditional shoes during a 50-km run.MethodsFour experienced minimalist runners were enrolled in this study. Each runner ran a 50-km simulated run in both minimalist shoes and traditional shoes. Pressure data, sEMG recordings, and limited 3D motion capture data were collected during the initial 0.8 km and final 0.8 km for each trial.ResultsThree runners in the traditional shoe type condition and one runner in the minimalist shoe type condition demonstrated a more posterior initial contact area (midfoot strike (MFS) pattern) after the 50-km run, which was supported by increased activity of the tibialis anterior in the pre-contact phase (as per root mean square (RMS) values). In addition, in both pre- and post-run conditions, there were increased peak pressures in the minimalist shoe type, specifically in the medial forefoot. Muscle fatigue as defined by a decreased median frequency observed in isometric, constant force contractions did not correspond with our hypothesis in relation to the observed foot strike change pattern. Finally, step rate increased and step length decreased after the 50-km run in both shoe type conditions.ConclusionMore runners adopted a more posterior initial contact area after the 50-km run in the traditional shoe type than in the minimalist shoe type. The runners who adopted a more posterior initial contact area were more closely associated with an increased median frequency of the medial gastrocnemius, which suggests there may be a change in motor unit recruitment pattern during long-distance, sustained velocity running. The increased peak pressures observed in the medial forefoot in the minimalist shoe type may predispose to metatarsal stress fractures in the setting of improper training. 相似文献
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鞋底类型和步行速度对行走相关肌群平均肌电活动的影响 总被引:1,自引:0,他引:1
目的:探讨依据跟掌高度比例关系确定的鞋底类型和步行速度对行走相关肌群表面肌电平均振幅(AEMG)的影响,为研究行走神经肌肉运动控制规律和研制具有保健作用的各类运动鞋提供科学依据.方法:10名健康青年男性志愿者,穿着具有不同类型鞋底的运动鞋(负跟鞋、平跟鞋、中跟鞋和船型鞋),分别以0.82 m/s和1.64 m/s速度匀速行走.检测行走相关肌群(身体右侧的胫骨前肌、内侧腓肠肌、比目鱼肌、多裂肌、竖脊肌、股外肌)表面肌电平均振幅.结果:双因素方差分析结果表明,步行速度对各被检肌群AEMG都有显著影响,鞋底类型时竖脊肌(F=5.52,P=0.002)和比目鱼肌(F=4.26,P=0.008)有显著影响,两者不存在交互作用.多重比较发现,穿着船型鞋和负跟鞋快速行走时竖脊肌AEMG显著高于平跟鞋和中跟鞋,穿着船型鞋时比目鱼肌AEMG显著高于其他三种鞋;慢速步行条件下鞋底类型对被检肌群无显著影响.结论:鞋底类型可以改变人体在快速行走时部分行走相关肌肉的平均肌电水平,其原因可能与鞋底类型改变所引起的行走姿势和神经肌肉运动控制模式发生改变有关. 相似文献
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ABSTRACTThis study examined the effect of wearing time on comfort perception and landing biomechanics of basketball shoes with different midsole hardness. Fifteen basketball players performed drop landing and layup first step while wearing shoes of different wearing time (new, 2-, 4-, 6- and 8-week) and hardness (soft, medium and hard). Two-way ANOVA with repeated measures was performed on GRF, ankle kinematic and comfort perception variables. Increased wearing time was associated with poorer force attenuation and comfort perception during landing activities (p < 0.05). The new shoes had significantly smaller forefoot (2- and 4-week) and rearfoot peak GRF impacts (all time conditions) in drop landing and smaller rearfoot peak GRF impact (6- and 8-week) in layup; shoes with 4-week of wearing time had significantly better perceptions of forefoot cushioning, forefoot stability, rearfoot cushioning, rearfoot stability and overall comfort than the new shoes (p < 0.05). Compared with hard shoes, the soft shoes had better rearfoot cushioning but poorer forefoot cushioning (p < 0.05). Shoe hardness and wearing time would play an influential role in GRF and comfort perception, but not in ankle kinematics. Although shoe cushioning performance would decrease even after a short wearing period, the best comfort perception was found at 4-week wearing time. 相似文献
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Claudia Knoepfli-Lenzin Jennifer Carole Waech Turgut Gülay Florian Schellenberg Silvio Lorenzetti 《Journal of sports sciences》2013,31(18):1671-1679
AbstractRunning shoe construction influences the forces experienced by the human body while running. The aim of this study was to ascertain whether the new sole architecture of the On running shoe reduces ground reaction forces compared with running barefoot or with a conventional running shoe and whether it changes the physiological parameters of running in shoes. Thirty-seven trained male participants were studied while running at submaximal speeds wearing their conventional running shoe, wearing the On running shoe and while barefoot. Additional biomechanical and physiological values were investigated to determine whether the On running shoe induced any changes in these parameters compared with conventional running shoes. The On exhibited similar ground reaction forces as conventional shoes, and these were different from the forces experienced while running barefoot, showing that the On was more similar to typical shoed running. No difference was observed in running economy between the On and a conventional shoe model. However, a slightly lower heart rate (HR) (≈1.3%) and blood lactate concentration (≈5.5%) were observed during submaximal running with the On running shoe compared with a conventional running shoe, as well as a greater lateral deviation of the centre of pressure mid-stance. The ramifications of the reduced HR and blood lactate concentration for competitive performance are unknown. 相似文献
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Abstract Plantar pressure characteristics during fencing movements may provide more specific information about the influence of foot loading on overload injury patterns. Twenty-nine experienced fencers participated in the study. Three fencing-specific movements (lunge, advance, retreat) and normal running were performed with three different shoe models: Ballestra (Nike, USA), Adistar Fencing Lo (Adidas, Germany), and the fencers' own shoes. The Pedar system (Novel, Munich, Germany) was used to collect plantar pressures at 50 Hz. Peak pressures, force–time integrals and contact times for five foot regions were compared between four athletic tasks in the lunge leg and supporting leg. Plantar pressure analysis revealed characteristic pressure distribution patterns for the fencing movements. For the lunge leg, during the lunge and advance movements the heel is predominantly loaded; during retreat, it is the hallux. For the supporting leg, during the lunge and advance movements the forefoot is predominantly loaded; during retreat, it is the hallux. Fencing-specific movements load the plantar surface in a distinct way compared with running. An effective cushioning in the heel and hallux region would help to minimize foot loading during fencing-specific movements. 相似文献