Department of Mechanical Engineering, Melbourne School of Engineering, University of Melbourne, Australia.
Ann Acad Med Singap. 2011 May;40(5):252-9.
This review addresses the different prosthetic socket designs for trans-tibial amputees, the biomechanics behind the designs and the current state of the field. Of particular focus is the classic patella-tendon bearing (PTB) socket and the more recent sockets manufactured using pressure casting techniques and the theory, biomechanics and clinical implications of the two designs. Methods to examine and compare these designs are also addressed.
Journal papers by various investigators which have clinical significance/impact on the field of trans-tibial socket design were chosen for this review. Articles were chosen over a period of over 50 years to demonstrate the evolution of knowledge.
The engineering of the trans-tibial socket has been largely subjected to empirical derivations and biomechanical theory that remains, for the most part, unproven. The fundamental principles of the PTB socket have been widely refuted. Hydrostatic theory based on pressure casting techniques, on the other hand, provides an optimal scenario to produce a more uniform stump/socket interface pressure.
Preliminary studies indicate the pressure casting technique has the potential to produce comfortable sockets, providing an alternative to the PTB design. Various studies have been attempted to quantitatively compare the 2 types of socket designs. However, further quantitative biomechanical studies are needed to explain the fundamental theory surrounding the pressure cast technique. Methods that could help further understand the pressure cast concept include amputee gait analysis, stump/socket interface pressure measurements, computer aided socket design and finite element modelling techniques.
本文综述了用于胫骨截肢患者的不同假肢接受腔设计、设计背后的生物力学原理以及该领域的现状。特别关注的是经典的髌韧带承重(PTB)接受腔,以及最近使用压力铸造技术制造的接受腔,以及这两种设计的理论、生物力学和临床意义。还介绍了检查和比较这些设计的方法。
选择了具有临床意义/影响胫骨接受腔设计领域的多位研究人员的期刊论文进行综述。选择了超过 50 年的文章,以展示知识的演变。
胫骨接受腔的工程设计在很大程度上受到经验推导和生物力学理论的影响,而这些理论在很大程度上尚未得到验证。PTB 接受腔的基本原理已被广泛驳斥。另一方面,基于压力铸造技术的流体静力学理论提供了产生更均匀的残肢/接受腔界面压力的最佳方案。
初步研究表明,压力铸造技术有潜力生产出舒适的接受腔,为 PTB 设计提供了替代方案。已经尝试了各种研究来定量比较这两种接受腔设计。然而,需要进一步进行定量生物力学研究来解释围绕压力铸造技术的基本理论。有助于进一步了解压力铸造概念的方法包括截肢者步态分析、残肢/接受腔界面压力测量、计算机辅助接受腔设计和有限元建模技术。
