Deformable titanium for acetabular revision surgery: a proof of concept.

IF 3.2 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING 3D printing in medicine Pub Date : 2023-06-09 DOI:10.1186/s41205-023-00177-9
J Magré, K Willemsen, H M A Kolken, A A Zadpoor, H C Vogely, B C H van der Wal, H Weinans
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Abstract

Custom-made triflange acetabular implants are increasingly used in complex revision surgery where supporting bone stock is diminished. In most cases these triflange cups induce stress-shielding. A new concept for the triflange is introduced that uses deformable porous titanium to redirect forces from the acetabular rim to the bone stock behind the implant and thereby reduces further stress-shielding. This concept is tested for deformability and primary stability.Three different designs of highly porous titanium cylinders were tested under compression to determine their mechanical properties. The most promising design was used to design five acetabular implants either by incorporating a deformable layer at the back of the implant or by adding a separate generic deformable mesh behind the implant. All implants were inserted into sawbones with acetabular defects followed by a cyclic compression test of 1800N for 1000 cycles.The design with a cell size of 4 mm and 0.2 mm strut thickness performed the best and was applied for the design of the acetabular implants. An immediate primary fixation was realized in all three implants with an incorporated deformable layer. One of the two implants with a separate deformable mesh needed fixation with screws. Cyclic tests revealed an average additional implant subsidence of 0.25 mm that occurred in the first 1000 cycles with minimal further subsidence thereafter.It is possible to realize primary implant fixation and stability in simulated large acetabular revision surgery using a deformable titanium layer behind the cup. Additional research is needed for further implementation of such implants in the clinic.

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可变形钛用于髋臼翻修手术:概念验证。
定制的三法兰髋臼植入物越来越多地用于复杂的翻修手术,在那里,支撑骨减少了。在大多数情况下,这些三缘杯会产生应力屏蔽。介绍了一种新的三翼缘概念,使用可变形多孔钛将力从髋臼边缘转移到植入物后面的骨源,从而减少进一步的应力屏蔽。该概念进行了变形性和初级稳定性测试。对三种不同设计的高多孔钛圆柱体进行了压缩试验,以确定其力学性能。最有希望的设计是设计五个髋臼植入物,要么在植入物的后面加入一个可变形层,要么在植入物后面添加一个单独的通用可变形网格。所有植入物均插入有髋臼缺损的锯骨内,然后进行1800N的循环压缩试验1000次。细胞尺寸为4 mm,支撑厚度为0.2 mm的设计效果最佳,并应用于髋臼植入物的设计。所有三种植入物均采用可变形层进行即时初始固定。两个植入物中有一个有单独的可变形网,需要用螺钉固定。循环试验表明,在前1000次循环中,植入物的平均额外沉降为0.25 mm,之后的进一步沉降最小。在模拟大髋臼翻修手术中,使用可变形的钛层在髋臼杯后可以实现初级植入物的固定和稳定。这类植入物在临床上的进一步应用还需要进一步的研究。
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