Perception of Running Shoe Cushioning: Determining the Correspondence between Subjective Assessment and In-vitro Measurement.

Q1 Health Professions
International journal of exercise science Pub Date : 2024-07-01 eCollection Date: 2024-01-01
Bahador Keshvari, Juergen Mitternacht, Nick Schubert, Veit Senner
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Abstract

Running shoes, and in particular insoles, are the first interface between runners and running surface. Different insole attenuation properties may vary perception of cushioning and, accordingly, the effect on muscle adaptation. The aim of this study is to find the just noticeable difference between four insole materials, and investigate the parameters of in-vitro measurement of impact testing to predict cushioning comfort. Nineteen (n = 19) male participants were recruited from the sports center at the Technical University of Munich with a mean age of 23.89 (SD = 2.31), weight of 73.52 kg (SD =3.08), and height 178.84 cm (SD =2.81). Four insole samples, one with the highest peak acceleration (EPDM =17.9g), one with the lowest (S.Tk = 8.3g) and the two materials with middle range magnitudes (IP.GL= 11.5g and S.Tn = 12.2g), were selected to use in the subjective measurement. We used the impact testing method to evaluate the in-vitro physical properties of insoles in running shoes. In addition, two parameters of peak acceleration were measured as follows: Jolt α was calculated at a slope of between 5-20 % of inertial impact force and Jolt β was calculated at a slope of between 0-88 Newtons of inertial impact force. Participants performed six pairwise comparison tests with shoes which were equipped with one of the four insoles in a random order. A minimum 6% increase in cushioning properties, notably between 11.5g (S.Tn) and 12.2g (IP.Gl), was discerned through the paired tests. In simpler terms, participants were able to detect a mere 0.7g as the just noticeable difference. In addition, our findings revealed that an increase of Jolt α and Jolt β resulted in a reduction in perception of comfort. There was a negative and significant correlation between Jolt α and perceived cushioning and, similarly, between Jolt β and perceived cushioning r (10) = -0.93, p = 0.00001. No correlation was found between peak acceleration and cushioning comfort (p = 0.1). These discoveries may facilitate a better understanding of how human adaptation can occur with different cushioning.

跑步鞋缓震感知:确定主观评估与体外测量之间的对应关系
跑鞋,尤其是鞋垫,是跑步者与跑步表面之间的第一个界面。不同鞋垫的衰减特性可能会影响缓冲感,从而影响肌肉适应性。本研究的目的是找出四种鞋垫材料之间的明显差异,并调查体外冲击测试测量参数,以预测缓冲舒适度。研究人员从慕尼黑工业大学体育中心招募了 19 名(n = 19)男性参与者,他们的平均年龄为 23.89 岁(SD = 2.31),体重为 73.52 千克(SD = 3.08),身高为 178.84 厘米(SD = 2.81)。我们选择了四种鞋垫样品,其中一种峰值加速度最高(EPDM =17.9g),另一种最低(S.Tk =8.3g),还有两种处于中间范围的材料(IP.GL=11.5g 和 S.Tn =12.2g),用于主观测量。我们采用冲击测试法来评估跑鞋鞋垫的体外物理特性。此外,还测量了以下两个峰值加速度参数:颠簸 α 是在惯性冲击力的斜率为 5-20% 时计算得出的,颠簸 β 是在惯性冲击力的斜率为 0-88 牛顿时计算得出的。参赛者使用四种鞋垫中的一种,以随机顺序进行了六次成对对比测试。通过配对测试发现,缓冲性能至少提高了 6%,特别是在 11.5g(S.Tn)和 12.2g(IP.Gl)之间。简单地说,参与者仅能发现 0.7g 的明显差异。此外,我们的研究结果表明,Jolt α 和 Jolt β 的增加会导致舒适感的降低。颠簸 α 与感觉到的缓冲之间存在明显的负相关,同样,颠簸 β 与感觉到的缓冲之间也存在明显的负相关 r (10) = -0.93,p = 0.00001。峰值加速度与缓冲舒适度之间没有相关性(p = 0.1)。这些发现可能有助于更好地理解人类如何适应不同的缓冲。
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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来源期刊
International journal of exercise science
International journal of exercise science Health Professions-Occupational Therapy
CiteScore
2.20
自引率
0.00%
发文量
47
审稿时长
26 weeks
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