The Effects of Different Degrees of Leg Length Discrepancy on Vertical Ground Reaction Force in Children and Adults: Treatment Implications.

IF 0.6 Q4 ORTHOPEDICS Malaysian Orthopaedic Journal Pub Date : 2023-11-01 DOI:10.5704/MOJ.2311.010
F Mohamed-Saaid, A R Sulaiman, I Munajat, E F Mohd, W N Arifin, R Ghafar
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Abstract

Introduction: Previous studies on the degree of leg length discrepancy that causes limb biomechanical problems did not differentiate between adults and children. We conducted this study to determine the effects of simulated leg length discrepancy on vertical ground reaction force in children and adults to enable decision-making for intervention in patients with leg length discrepancy for different age groups or heights.

Materials and methods: This cross-sectional study involved male volunteers of children 150cm and adults with 170cm in height. Vertical ground reaction force was measured using a gait analysis study. The first measurement was taken without any leg length discrepancy as a baseline. Subsequently, different amounts of leg length discrepancy were simulated on the left leg with shoe lifts of 2, 3, and 4cm. The measurements were repeated on each volunteer with similar shoe lifts on the right leg. Therefore, 14 volunteers provided simulations of 28 leg length discrepancies for each group. The first and second peaks of vertical ground reaction force were separately analysed. The vertical GRF of a simulated leg length discrepancy was compared with the baseline. Repeated measurement of analysis of variance (ANOVA) within each group was done.

Results: In both groups, the second peak of vertical ground reaction force in the longer leg reduced gradually as the shoe lift increased sequentially from 2 to 3cm and then to 4cm. A discrepancy of 3cm and above was statistically significant to cause a reduction in the vertical GRF on the longer limb in both height groups.

Conclusion: The degree of leg length discrepancy that caused significant changes in second peak ground reaction force in children with 150 and adults with 170cm height population was similar at 3cm. Therefore, the cut-off point for intervention for both groups are similar with additional consideration of future growth in children.

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不同程度的腿长不一致对儿童和成人垂直地面反作用力的影响:治疗意义。
导言:以往关于导致肢体生物力学问题的腿长差异程度的研究并未区分成人和儿童。我们进行了这项研究,以确定模拟腿长差异对儿童和成人垂直地面反作用力的影响,从而为不同年龄组或身高的腿长差异患者的干预决策提供依据:这项横断面研究涉及身高 150 厘米的儿童和 170 厘米的成人男性志愿者。通过步态分析研究测量了垂直地面反作用力。第一次测量以没有任何腿长差异为基线。随后,在左腿上模拟了 2 厘米、3 厘米和 4 厘米的不同腿长差异。每名志愿者的右腿都以类似的鞋垫高度重复测量。因此,每组有 14 名志愿者提供了 28 个腿长偏差的模拟结果。我们分别对垂直地面反作用力的第一个和第二个峰值进行了分析。模拟腿长偏差的垂直地面反作用力与基线进行比较。每组内进行重复测量方差分析(ANOVA):在两组中,随着鞋的抬高从 2 厘米到 3 厘米,再到 4 厘米,长腿的垂直地面反作用力的第二个峰值逐渐减小。两组身高差异均在 3 厘米及以上时,长肢的垂直地面反作用力均显著降低:结论:在身高 150 厘米的儿童和身高 170 厘米的成人中,腿长偏差程度导致第二峰值地面反作用力发生显著变化的程度相似,均为 3 厘米。因此,考虑到儿童未来的生长情况,两组干预的临界点是相似的。
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来源期刊
CiteScore
1.30
自引率
0.00%
发文量
104
审稿时长
24 weeks
期刊介绍: The Malaysian Orthopaedic Journal is a peer-reviewed journal that publishes original papers and case reports three times a year in both printed and electronic version. The purpose of MOJ is to disseminate new knowledge and provide updates in Orthopaedics, trauma and musculoskeletal research. It is an Open Access journal that does not require processing fee or article processing charge from the authors. The Malaysian Orthopaedic Journal is the official journal of Malaysian Orthopaedic Association (MOA) and ASEAN Orthopaedic Association (AOA).
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