2023
DOI: 10.1101/2023.01.05.521963
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Osseointegration of functionally-graded Ti6Al4V porous implants: Histology of the pore network

Abstract: The additive manufacturing of titanium into porous geometries offers a means to generate low-stiffness endosseous implants with a greater surface area to improve osseointegration. In order to optimize pore size in the scaffolds, it is important to first understand the timeline of osseointegration in pre-clinical models. In this work, selective laser melting was used to produce gyroid-based scaffolds with a uniform pore size of 300 μm or functionally-graded pore size from 600 μm to 300 μm before implantation in… Show more

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“…Porous implant scaffolds were designed and implanted according to the specifications described elsewhere [31] . Briefly, implants were designed with a total height of 7 mm and total diameter of 6 mm.…”
Section: Scaffold Design and Implantationmentioning
confidence: 99%
“…Porous implant scaffolds were designed and implanted according to the specifications described elsewhere [31] . Briefly, implants were designed with a total height of 7 mm and total diameter of 6 mm.…”
Section: Scaffold Design and Implantationmentioning
confidence: 99%
“…Porous implant scaffolds were designed and implanted according to the specifications described elsewhere. [31] Briefly, implants were designed with a total height of 7 mm and a total diameter of 6 mm. The porous midsection was designed to contain a gyroid unit cell, with radially varying pore size from ⌀ = 600 μm at the scaffold exterior to ⌀ = 300 μm at the midpoint of the scaffold.…”
Section: Scaffold Design and Implantationmentioning
confidence: 99%