Comparison of gait properties during level walking and stair ascent and descent with varying loads

This study aimed to compare gait properties during level walking and during stair ascent and descent with varying loads. Fifteen healthy young men (mean age: 22.1 ± 1.6 years) walked while holding four different loads relative to each subject’s body mass (0, 20, 40 and 60% of body mass: BM) on their backs. Stance time, swing time, and double support times were selected as gait parameters. All parameters showed a maximal value during stair ascent and a minimum value during level walking. Stance and double support times increased significan- tly with each load during level walking and during stair ascent and descent. In conclusion, st- air ascent and descent creates more unstable movement than level walking regardless of the weight of the load. The effect of loads on gait increases with the weight of the load and becomes obvious once the load exceeds 60% of BM.

Finite Element Analysis of Femoral Strains in Older Adults During Stair Ascent and Descent

Purpose Understanding the femur load environment during daily activity is necessary for the understanding of risk of femoral pain,pain related falls,and femoral fractures,which could help the design of osteogenic exercises or the preventa-tive methods for older adults.Methods Using the finite element femur analysis,this study was to estimate the femoral strains at 9 cross-sections along the long axis of femur for stair ascent and descent(n=17;age:50-65 years).Motion analysis and inverse dynamics were com-bined with musculoskeletal modelling and optimization,then were used as input to a 3-D femur model to estimate femoral strains.Strains at the hip contact force peaks were calculated.Results The compressive and tensile strains during stair descent were greater than ascent for all or most cross-sections,especially for the proximal cross-sections of the femur:stair ascent produced−324.0±103.8 to−483.7±191.0μεcompressive strains and descent produced−608.8±288.4 to 1016.0±444.1με;stair ascent produced 336.2±105.4 to 391.8±136.9μεtensile strains and descent produced 546.9±252.8 to 741.7±333.6με.Conclusion Strains represent the material deformation effect on the bone due to the sum of all the bone external loads.Using bone strains could help future studies analyze load conditions in a more comprehensive way for other physical activities,which predicts the risk of stress fractures and tests if alternative methods(gait type change)could reduce stress and strain effectively.

上、下楼梯步态参数变化特征研究

目的采集上、下楼梯过程中健康人体下肢运动学、动力学功能参数,为外骨骼助行器实现上、下楼梯这一运动形式的步态轨迹设计和驱动元件选型提供数据支持。方法设计常规楼梯实验装置,利用三维运动捕捉系统和三维测力台系统同步测量方法测量上、下楼梯时踝、膝、髋关节运动信息,应用SPSS统计软件和Origin绘图软件分析下肢运动特点,并对比分析上、下楼梯时下肢的功能参数。结果通过实验获得健康青年人在上、下楼梯时下肢关节在矢状面关节角度、关节力矩随步态变化规律及活动极限值,上楼时踝、膝、髋关节角度依次为-10.66°-13.26°、6.85°-88.92°、1.31°-50.18°,下楼时踝、膝、髋关节角度依次为-37.42°-27.18°、9.83°-95.53°、8.01°-31.62°。上、下楼梯时所需最大踝、膝、髋关节力矩依次为1.788、1.121和0.946 N·m/kg。结论上、下楼梯时人体下肢步态参数随步态变化趋势与关节运动范围显著不同。助行器步态规划要针对上、下楼梯单独设计,驱动元件的选型上要满足上、下楼梯时各关节的最大力矩需求。

上楼梯对人工膝关节假体磨损影响的有限元研究

目的通过有限元磨损模型研究上楼梯对衬垫磨损的影响,对完善人工膝关节的磨损评估方法、指导假体设计等具有重要的理论和实际意义。方法基于Archard磨损理论建立人工膝关节衬垫磨损的有限元模型并验证,然后加载正常水平行走(ISO14243标准)和上楼梯的载荷,对比分析上楼梯对衬垫磨损的影响。结果水平行走步态载荷下,模型预测的磨损结果与文献实验报道结果一致,模型具有较好的有效性。上楼梯的体积磨损率为每100万次循环(million cycle,MC)37.10 mm^3,显著高于水平行走步态的体积磨损率(16.94 mm^3/MC),线性磨损也具有类似的结果。上楼梯内侧平台的磨损区域主要集中在后部,与水平行走时内侧平台的磨损主要发生在中部区域有明显不同。结论上楼梯作为高载荷、高屈膝角度的日常运动之一,对人工膝关节衬垫的磨损有较大影响,其磨损率和磨损区域与水平行走有明显差异,在人工膝关节的磨损检测和评估中应该给予适当的重视。

电针治疗膝骨性关节炎患者上下楼梯的三维有限元分析

针对电针治疗膝骨性关节炎患者上下楼梯运动生物力学特性改变进行有限元仿真研究,对比分析膝关节生物力学行为改变与电针治疗疗效的相关性。基于CT和MRI图像数据,结合Mimics和Geomagic医学图像处理软件,建立人体膝关节下楼梯屈曲15°和上楼梯屈曲50°时的三维有限元模型,模型包括股骨、胫骨、腓骨、内外侧半月板、股骨软骨、内外侧胫骨软骨结构等。通过临床力学实验,测取电针治疗前后膝关节所受支反力、力矩,并施加于所建立的有限元模型,对比分析治疗前后半月板及关节软骨的应力分布情况。膝骨性关节炎在电针治疗后,内外侧半月板、股骨软骨、内外侧胫骨软骨的应力均得到不同程度的恢复,与治疗前相比,下楼梯屈曲15°时最大应力值分别减小0.543、0.236、0.194、0.239和0.327 MPa,上楼梯屈曲50°时分别减少0.253、0.31、0.227、0.112和0.122 MPa,软骨的应力峰值趋向于正常值,应力分布范围也更接近于正常膝关节,且关节内侧软骨及半月板比外侧受到的负荷大,软骨应力比更接近于正常值,这与临床上内侧型膝骨性关节炎患者多于外侧型患者的现象相符合,从而证明电针治疗可影响膝关节中力的传递,使病变膝关节的应力吸收能力得到改善和提高。电针治疗膝骨性关节炎能有效改善关节软骨的压应力,使关节内力平衡得到恢复,延缓关节软骨退变,促进关节软骨的修复;电针治疗下膝关节生物力学特性的研究,可为膝关节临床治疗和评价提供理论依据。

楼梯行走足底压力与表面肌电参数研究

目的探究上下楼梯时的足底压力和表面肌电参数,为动力式助行器足部结构设计、动力元件选型和安装位置分布提供理论支撑。方法招募10名健康男性青年进行楼梯行走,利用运动捕捉系统、足底压力系统和表面肌电系统采集足底压力的峰值压强、压力中心轨迹（COP轨迹）和各块下肢肌肉的肌电参数。结果与平地行走相比,楼梯行走时站立相时间占整个步态周期的百分比增大;上楼时前足部分峰值压强增大,下楼时足趾区域的峰值压强减小;楼梯行走时,股直肌、股二头肌、内外侧腓肠肌对人体稳定性起主要作用。结论在设计动力式助行器足部结构时应充分考虑足底压力的分布情况,选择动力式助行器动力元件的安装位置和型号时应考虑主要肌肉的作用。

老年人上下楼梯的步态特征以及下肢关节运动功能特点

目的探讨老年人上下楼梯的步态特征以及下肢关节运动的力学性能。方法通过17名青年人、15名老年人自然速度上下5个台阶的楼梯测试与分析,并结合红外高速运动捕捉系统和三维测力台获取步态参数、下肢关节角度以及地面反作用力,通过逆向动力学方法计算关节力矩和功率,采取独立样本t检验分析年龄对上述参数的影响。结果与青年人相比,老年人上下楼梯步态周期较长,步速和步频则明显较低(P<0.05);同时,老年人上下楼梯支撑相和摆动相分别明显延长和缩短(P<0.05)。不论是青年人还是老年人,上下楼梯过程中下肢关节角度、力矩和功率的变化趋势较为一致。但老年人上楼主要是通过踝、膝关节功率的产生来维持,而青年人则是通过近端肢体的能量,特别动用了较多的膝关节功率。下楼过程中的能量吸收,两者皆是以膝关节为主。结论随着年龄的增长,下肢机能下降和肌力不足,老年人害怕在上下楼梯时发生跌倒,试图通过减少摆动时间来弥补身体的不稳定。研究结果为临床上老年患者群体的康复管理以及预测跌倒的功能性评估提供参考。