Kaufman Kenton R, Bernhardt Kathie
Motion Analysis Laboratory, Department of Orthopedic Surgery, Mayo Clinic, Rochester, MN.
Prosthet Orthot Int. 2021 Jun 1;45(3):205-213. doi: 10.1097/PXR.0000000000000004.
Persons with lower limb amputation require increased functionality. The largest category of feet for active individuals with a transtibial amputation is energy storage and return (ESR) feet. These feet are typically constructed of carbon fiber composite materials. Recently, a prosthetic foot composed of a fiberglass composite has emerged in the market. However, there are no comparative studies of these devices.
Compare the biomechanical performance and prosthesis-related quality of life when using a fiberglass prosthetic foot design compared with traditional carbon fiber ESR designs.
This is a repeated-measures randomized cross-over trial.
Gait analysis was performed on 10 experienced male subjects with unilateral transtibial amputations (K-level III) while walking on level ground and a ramp. Patient-reported outcomes were collected using the Prosthesis Evaluation Questionnaire.
Gait data demonstrated increased ankle dorsiflexion (P < .01), similar ankle moments (P = .07), and increased ankle power generation (P = .01) when using the fiberglass foot. The increased power generation occurred at the correct time in the gait cycle such that the timing and magnitude of peak knee flexion was unaffected (P > .19). The fiberglass foot had greater energy absorption during gait (P = .01) with no difference in energy return (P = .37). The subjects expressed improved prosthesis-related quality of life with the fiberglass foot (P = .01).
The findings of this study demonstrate that the new ESR foot comprising a fiberglass material had better performance than traditional designs using a carbon fiber material.
下肢截肢患者需要增强功能。对于经胫截肢的活跃个体而言,最大类别的足部是能量储存与回馈(ESR)足。这些足部通常由碳纤维复合材料制成。最近,一种由玻璃纤维复合材料制成的假足已在市场上出现。然而,尚无对这些装置的比较研究。
比较使用玻璃纤维假足设计与传统碳纤维ESR设计时的生物力学性能及与假肢相关的生活质量。
这是一项重复测量随机交叉试验。
对10名有经验的单侧经胫截肢(K级III)男性受试者在平地上和斜坡上行走时进行步态分析。使用假肢评估问卷收集患者报告的结果。
步态数据显示,使用玻璃纤维足时,踝关节背屈增加(P <.01),踝关节力矩相似(P =.07),踝关节发电增加(P =.01)。发电增加发生在步态周期的正确时间,因此膝关节屈曲峰值的时间和幅度未受影响(P >.19)。玻璃纤维足在步态期间具有更大的能量吸收(P =.01),能量回馈无差异(P =.37)。受试者表示使用玻璃纤维足时与假肢相关的生活质量有所改善(P =.01)。
本研究结果表明,新型含玻璃纤维材料的ESR足比使用碳纤维材料的传统设计具有更好的性能。
