The main objective of the study was to print a pair of customized insoles based on foot scanning. At first plantar pressure distribution while walking in an average group of 51 young adults (21 males and 30 females, age 22 ± 2 years, height 1.72 ±0.1 m. weight: 70 ± 16 kg) was measured. One of these participants who had an European foot type was selected for future feet scanning and modeling. For plantar scanning a scanner type ATOS III TripleScan was used and then a 3D model of the feet was made. These models were used for the subsequent 3D printing of the insoles. Developed insoles were printed with an OBJET Connex 500 printer (technology PolyJet Matrix) and the blend of Agilus30 and VeroBlack material was used. Initial plantar pressure measurement results with the insole prototype indicated a positive effect to the gait cycle when a subject's foot contact area was changed. Our experience and knowledge may be used in the future to influence gait cycle through adjustment of the customized insoles in a patients with a different foot deformities.
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机译:该研究的主要目的是根据脚扫描打印一对定制的鞋垫。在Foratorar压力分布,在平均51名年轻人(21名男性和30名女性,22±2年龄,高度1.72±0.1米)的普通组。选择了欧洲脚型的这些参与者之一用于将来的脚扫描和建模。对于Purtorar扫描扫描仪类型ATOS III Triplescan,然后制造脚的3D模型。这些模型用于后续3D打印鞋垫。使用Objet Connex 500打印机(技术Polyjet矩阵)打印开发的鞋垫,并使用Agilus30和Veroblack材料的混合物。初始Plantar压力测量结果与鞋垫原型指示当受试者的脚接触面积改变时对步态周期的积极效果。我们的经验和知识可能会在未来使用不同脚畸形的患者的定制鞋垫来影响步态周期。
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