Individuals with pre-obesity exhibit a more asymmetrical gait pattern

Gait & posture Pub Date : 2023-09-01 DOI:10.1016/j.gaitpost.2023.07.223

Halit Selçuk, Hilal Keklicek

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Abstract

Previous studies have shown that obesity impairs body biomechanics (1-3). However, no study has been found examining the gait of individuals who are not obese but have an above-normal BMI and were considered pre-obese. Does pre-obesity affect the symmetry of the angular values of the lower extremity during walking? Thirteen individuals with normal body mass index (BMI) (21.53±2.05 kg/m) and eight individuals with pre-obesity (28.52±2.21 kg/m) were recruited for the study. Participants walked at their self-paced speed for 4-5 minutes (4) on a motorized treadmill and the data of lower limb angles were collected with inertial measurement units (Xsens Technologies B.V.). Minimum, maximum, and average values of stance and swing phase of the participants for the whole series of the ankle, knee, and hip angles, as well as; the series at heel strike and foot release phase were recorded. Differences between right and left joints were calculated to examine gait symmetry. Symmetry in ankle angles was similar between groups (p>0.05). In the pre-obese group; minimum(p=0.011) and maximum (p=0.007) knee angles were more asymmetrical in the stance phase than in the normal-weight group. Also, the minimum knee angle in the swing phase was more asymmetrical (p=0.043) in the pre-obese group. In addition, it was determined that the pre-obese group exhibited more asymmetrical knee angles at heel strike (p=0.032) and foot release (p=0.017). The maximum hip angle of the pre-obese group was more asymmetrical in the stance phase (p=0.003) and swing phase (p= 0.006). Also, in the heel strike, the hip angle (p=0.009) was found to be more asymmetrical than the normal-weight group. No difference was observed between the groups for all other measurements (p>0.05). The results of the study showed that individuals with pre-obesity level BMI exhibited a more asymmetrical gait pattern in the proximal joints during walking. It was observed that the increase in BMI negatively affected gait even if below the level of obesity.

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肥胖前期的个体表现出更不对称的步态模式

先前的研究表明，肥胖会损害身体的生物力学(1-3)。然而，目前还没有研究发现对体重指数高于正常水平的非肥胖者的步态进行调查。肥胖前期是否影响行走时下肢角值的对称性?研究对象为体重指数(BMI)正常的13例(21.53±2.05 kg/m)和肥胖前期的8例(28.52±2.21 kg/m)。参与者在电动跑步机上以自己的速度步行4-5分钟(4)，下肢角度数据由惯性测量装置(Xsens Technologies B.V.)收集。参与者在脚踝、膝盖和臀部角度的整个系列中，站姿和摇摆阶段的最小值、最大值和平均值，以及;记录了足跟撞击和足部释放阶段的一系列动作。计算左右关节之间的差异以检查步态对称性。两组间踝关节角度对称性比较，差异无统计学意义(p < 0.05)。在肥胖前组;站立阶段最小(p=0.011)和最大(p=0.007)膝关节角度比正常体重组更不对称。此外，肥胖前组在摇摆阶段的最小膝关节角度更不对称(p=0.043)。此外，确定肥胖前组在脚跟撞击(p=0.032)和足部释放(p=0.017)时表现出更多的不对称膝关节角度。肥胖前组髋部最大角度在站立阶段(p=0.003)和摇摆阶段(p= 0.006)更为不对称。此外，在脚跟撞击时，发现臀部角度(p=0.009)比正常体重组更不对称。各组间其他指标均无差异(p < 0.05)。研究结果表明，肥胖前BMI水平的个体在行走时近端关节表现出更不对称的步态模式。据观察，即使低于肥胖水平，BMI的增加也会对步态产生负面影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Gait & posture

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