Knee Reconstruction Using 3D-Printed Porous Tantalum Augment in the Treatment of Charcot Joint. [PDF]
Hua L, Hua L, Lei P, Hu Y.
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Fabrication, bacteriostasis and osteointegration properties researches of the additively-manufactured porous tantalum scaffolds loading vancomycin. [PDF]
Qian H +9 more
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Total Knee Replacement with an Uncemented Porous Tantalum Tibia Component: A Failure Analysis. [PDF]
Fokter SK +8 more
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Evaluation of interbody fusion efficacy and biocompatibility of a polyetheretherketone/calcium silicate/porous tantalum cage in a goat model. [PDF]
Yuan K +10 more
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3D printed porous tantalum loaded with quercetin-curcumin-piperine PLGA nanoparticles for bone defect repair. [PDF]
Yu S +6 more
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Porous tantalum cage loaded with CGF promotes interbody fusion in a rat XLIF model. [PDF]
Wu H +9 more
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Acetabular Reconstruction Using Multiple Porous Tantalum Augments: Three-Quarter Football Augment. [PDF]
Ansorge CH +5 more
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Porosity optimization confers 3D-printed porous tantalum scaffolds with superior osteogenic capability and biocompatibility over titanium alloys. [PDF]
Liang Y +5 more
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An overview about biomedical applications of micron and nano size tantalum
Tantalum is obtained from the minerals colombite, tantalite and euxenite. It is greyish silver, heavy and very hard. Tantalum does not react with body fluids and is used to make surgical equipment.
Maccauro, Giulio +5 more
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A New Method to Protect Blood Supply in the Treatment of Femoral Neck Fractures: Bidirectional Compression Porous Tantalum Screws. [PDF]
Zhao D +7 more
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