使用传统方法和快速成型技术制造的经胫骨假肢接受腔结构强度的研究。
An Investigation of the Structural Strength of Transtibial Sockets Fabricated Using Conventional Methods and Rapid Prototyping Techniques.
作者信息
Pousett B, Lizcano A, Raschke S U
机构信息
Barber Prosthetics Clinic, Vancouver, British Colombia, Canada.
Biomedical Engineering Department, Universidad Iberoamericana, Ciudad de Mexico, Mexico.
出版信息
Can Prosthet Orthot J. 2019 Apr 18;2(1):31008. doi: 10.33137/cpoj.v2i1.31008. eCollection 2019.
BACKGROUND
Rapid Prototyping is becoming an accessible manufacturing method but before clinical adoption can occur, the safety of treatments needs to be established. Previous studies have evaluated the static strength of traditional sockets using ultimate strength testing protocols outlined by the International Organization for Standardization (ISO).
OBJECTIVE
To carry out a pilot test in which 3D printed sockets will be compared to traditionally fabricated sockets, by applying a static ultimate strength test.
METHODOLOGY
36 sockets were made from a mold of a transtibial socket shape,18 for cushion liners with a distal socket attachment block and 18 for locking liners with a distal 4-hole pattern. Of the 18 sockets, 6 were thermoplastic, 6 laminated composites & 6 3D printed Polylactic Acid. Sockets were aligned in standard bench alignment and placed in a testing jig that applied forces simulating individuals of different weight putting force through the socket both early and late in the stance phase. Ultimate strength tests were conducted in these conditions. If a setup passed the ultimate strength test, load was applied until failure.
FINDINGS
All sockets made for cushion liners passed the strength tests, however failure levels and methods varied. For early stance, thermoplastic sockets yielded, laminated sockets cracked posteriorly, and 3D printed socket broke circumferentially. For late stance, 2/3 of the sockets failed at the pylon. Sockets made for locking liners passed the ultimate strength tests early in stance phase, however, none of the sockets passed for forces late in stance phase, all broke around the lock mechanism.
CONCLUSION
Thermoplastic, laminated and 3D printed sockets made for cushion liners passed the ultimate strength test protocol outlined by the ISO for forces applied statically in gait. This provides initial evidence that 3D printed sockets are statically safe to use on patients and quantifies the static strength of laminated and thermoplastic sockets. However, all set-ups of sockets made for locking liners failed at terminal stance. While further work is needed, this suggests that the distal reinforcement for thermoplastic, laminated and 3D printed sockets with distal cylindrical locks may need to be reconsidered.
背景
快速成型正成为一种可实现的制造方法,但在临床应用之前,需要确定治疗的安全性。先前的研究已使用国际标准化组织(ISO)概述的极限强度测试协议评估了传统承窝的静态强度。
目的
通过进行静态极限强度测试,开展一项将3D打印承窝与传统制造承窝进行比较的试点测试。
方法
用一个经胫骨承窝形状的模具制作了36个承窝,其中18个用于带有远端承窝连接块的缓冲衬垫,18个用于带有远端四孔图案的锁定衬垫。在这18个承窝中,6个是热塑性材料的,6个是层压复合材料的,6个是3D打印聚乳酸的。承窝按照标准台架对齐方式进行对齐,并放置在一个测试夹具中,该夹具施加的力模拟不同体重的个体在站立期早期和晚期通过承窝施加力的情况。在这些条件下进行极限强度测试。如果一个装置通过了极限强度测试,就继续施加负荷直至其失效。
结果
所有为缓冲衬垫制作的承窝都通过了强度测试,然而失效水平和方式各不相同。对于站立期早期,热塑性承窝产生屈服,层压承窝在后部出现裂纹,3D打印承窝沿圆周方向断裂。对于站立期晚期,2/3的承窝在支腿处失效。为锁定衬垫制作的承窝在站立期早期通过了极限强度测试,然而,在站立期晚期施加力时,没有一个承窝通过测试,所有承窝都在锁定机构周围断裂。
结论
为缓冲衬垫制作的热塑性、层压和3D打印承窝通过了ISO概述的在步态中静态施加力时的极限强度测试协议。这提供了初步证据,表明3D打印承窝在临床上对患者使用静态安全,并量化了层压和热塑性承窝的静态强度。然而,为锁定衬垫制作的所有承窝装置在站立期末期都失效了。虽然还需要进一步的研究,但这表明对于带有远端圆柱形锁的热塑性、层压和3D打印承窝,其远端加固可能需要重新考虑。
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