Caravaggi Paolo, Giangrande Alessia, Lullini Giada, Padula Giuseppe, Berti Lisa, Leardini Alberto
Movement Analysis Laboratory and Functional-Clinical Evaluation of Prostheses, Istituto Ortopedico Rizzoli, via di Barbiano 1/10, 40136 Bologna, Italy.
Università degli Studi della Repubblica di S. Marino, San Marino.
Gait Posture. 2016 Oct;50:232-238. doi: 10.1016/j.gaitpost.2016.09.013. Epub 2016 Sep 11.
Health and safety regulations in many countries require workers at risk to wear safety shoes in a factory environment. These shoes are often heavy, rigid, and uncomfortable. Wearing safety shoes daily leads to foot problems, discomfort and fatigue, resulting also in the loss of numerous working days. Currently, knowledge of the biomechanical effects of insoles in safety shoes, during working activities, is very limited. Seventeen workers from a metalworking factory were selected and clinically examined for any foot conditions. Workers feet were 3D scanned, with regards to their plantar view, and the images used to design 34 custom-insoles, based on foot and safety shoe models. Three insoles were blind-tested by each worker: custom (CUS); prefabricated with the safety-shoe (PSS), and off-the-shelf (OTS). Foot-to-insole pressure distribution was measured in seven motor tasks replicating typical working activities: single and double-leg standing; weight lifting; stair ascending and descending; normal and fast walking. Wearing CUS within safety shoes resulted in a greater uniform pressure distribution across plantar regions for most of the working activities. Peak pressure at the forefoot during normal walking was the lowest in the custom insole (CUS 275.9±55.3kPa; OTS 332.7±75.5kPa; PSS 304.5±54.2kPa). Normal and fast walking were found to be the most demanding activities in terms of peak pressure. Wearing safety shoes results in high pedobarographic parameters in several foot regions. The use of custom insoles designed on the foot morphology helps decrease peak pressure and pressure-time integral compared to prefabricated featureless insoles.
许多国家的健康与安全法规要求在工厂环境中面临风险的工人穿着安全鞋。这些鞋子通常很重、很硬,穿着不舒服。每天穿着安全鞋会导致脚部问题、不适和疲劳,还会导致大量工作日的损失。目前,关于安全鞋内底在工作活动中的生物力学效应的知识非常有限。从一家金属加工厂挑选了17名工人,并对他们的脚部状况进行了临床检查。对工人的脚进行了足底视图的3D扫描,并根据脚和安全鞋模型使用这些图像设计了34个定制内底。每个工人对三种内底进行了盲测:定制(CUS);与安全鞋一起预制的(PSS),以及现成的(OTS)。在七个模拟典型工作活动的运动任务中测量了脚与内底的压力分布:单腿和双腿站立;举重;上下楼梯;正常行走和快速行走。在安全鞋中穿着CUS在大多数工作活动中导致整个足底区域的压力分布更均匀。正常行走时前脚掌的峰值压力在定制内底中最低(CUS 275.9±55.3kPa;OTS 332.7±75.5kPa;PSS 304.5±54.2kPa)。就峰值压力而言,正常行走和快速行走被发现是要求最高的活动。穿着安全鞋会导致几个脚部区域的足底压力参数较高。与无特征的预制内底相比,根据足部形态设计的定制内底有助于降低峰值压力和压力-时间积分。
