PERFORMANCE OF LASER SINTERED TI–6AL–4V IMPLANTS WITH BONE-INSPIRED POROSITY AND MICRO/NANOSCALE SURFACE ROUGHNESS IN THE RABBIT FEMUR
David J Cohen, Alice Cheng, Kaan Sahingur, Ryan M Clohessy, Louis B Hopkins, Barbara D Boyan and Zvi Schwartz
Published: Biomedical Materials, 28 April 2017
Long term success of bone-interfacing implants remains a challenge in compromised patients and in areas of low bone quality. While surface roughness at the micro/nanoscale can promote osteogenesis, macro-scale porosity is important for promoting mechanical stability of the implant over time.
Currently, machining techniques permit pores to be placed throughout the implant, but the pores are generally uniform in dimension. The advent of laser sintering provides a way to design and manufacture implants with specific porosity and variable dimensions at high resolution.
This approach enables production of metal implants that mimic complex geometries found in biology. In this study, we used a rabbit femur model to compare osseointegration of laser sintered solid and porous implants. Ti–6Al–4V implants were laser sintered in a clinically relevant size and shape.
One set of implants had a novel porosity based on human trabecular bone; both sets had grit-blasted/acidetched surfaces.
After characterization, implants were inserted transaxially into rabbit femora; mechanical testing, micro-computed tomography (microCT) and histomorphometry were conducted
10 weeks post-operatively. There were no differences in pull-out strength or bone-to-implant contact.
However, both microCT and histomorphometry showed significantly higher new bone volume for porous compared to solid implants. Bone growth was observed into porous implant pores, especially near apical portions of the implant interfacing with cortical bone. These results show that laser sintered Ti–6Al–4V implants with micro/nanoscale surface roughness and trabecular boneinspired porosity promote bone growth and may be used as a superior alternative to solid implants for bone-interfacing implants.
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