Lo Wai-Ting, Wong Del P, Yick Kit-Lun, Ng Sun Pui, Yip Joanne
1 Institute of Textiles and Clothing, The Hong Kong Polytechnic University, Kowloon, Hong Kong.
2 Sport Science Research Center, Shandong Sport University, Jinan, China.
Prosthet Orthot Int. 2018 Apr;42(2):153-162. doi: 10.1177/0309364617696084. Epub 2017 May 12.
Orthotic insoles that are made of foam material often have less breathability and thus cause discomfort to the wearer. Given that a sandwich structure offers better porosity and breathability that would improve comfort, the impact of custom-made insoles made with three-dimensional spacer fabric is studied.
To examine the biomechanical effects and subjective comfort of spacer-fabric insoles during walking.
Repeated measures.
Plantar pressure and lower limb muscle activity data are collected from 12 subjects. Subjective perceived comfort is measured after five successful walking trials for each of the three different insoles worn: traditional insoles made with ethylene vinyl acetate and two types of spacer-fabric insoles.
Compared to the use of traditional insoles, there is a statistically significant reduction in the peak pressure (>8%) and pressure-time integral (>16%) in the toes and metatarsal head 1 with the use of the spacer-fabric insoles as the top layer. Insoles with two layers of spacer fabrics have the highest perceived comfort ( p < 0.01). However, there is no significant difference in the selected muscle activity for all three insoles.
Insoles with different arrangements of spacer fabrics allow changes in pressure patterns across the plantar foot and perception of comfort while walking. The findings enhance current understanding on the use of textile-fabricated materials, which provide alternative solutions for modifying insoles. Clinical relevance The key features of spacer fabric offer a viable option for different orthotic insole applications. The results will greatly contribute toward insole prescription, potentially enhancing the efficacy of orthotic performance and increasing the range of insole materials.
由泡沫材料制成的矫形鞋垫通常透气性较差,从而给穿着者带来不适。鉴于三明治结构具有更好的孔隙率和透气性,能够提高舒适度,因此研究了用三维间隔织物制作的定制鞋垫的影响。
研究间隔织物鞋垫在行走过程中的生物力学效应和主观舒适度。
重复测量。
从12名受试者收集足底压力和下肢肌肉活动数据。在对三种不同鞋垫(用乙烯醋酸乙烯酯制成的传统鞋垫和两种间隔织物鞋垫)进行五次成功的行走试验后,测量主观感知舒适度。
与使用传统鞋垫相比,使用间隔织物鞋垫作为顶层时,脚趾和第一跖骨头处的峰值压力(>8%)和压力-时间积分(>16%)有统计学显著降低。两层间隔织物的鞋垫具有最高的感知舒适度(p < 0.01)。然而,所有三种鞋垫在所选肌肉活动方面没有显著差异。
不同排列的间隔织物鞋垫在行走时可改变足底压力模式和舒适度感知。这些发现增进了目前对纺织制造材料使用的理解,为改良鞋垫提供了替代解决方案。临床相关性间隔织物的关键特性为不同的矫形鞋垫应用提供了可行选择。结果将极大地有助于鞋垫处方,可能提高矫形性能的功效并增加鞋垫材料的范围。
