1999
DOI: 10.1097/00041327-199906000-00021
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CT-Generated Porous Hydroxyapatite Orbital Floor Prosthesis as a Prototype Bioimplant

Abstract: Summary: Hydroxyapatite bioceramic was used for the manufacture of an orbital floor prosthesis from spiral CT data acquired transaxially at 1-mm beam collimation, pitch of 1, and 0.2-mm reconstruction intervals. CT data were converted to vector file format for subsequent prosthesis manufacture on a stereolithography machine. The orbital floor prosthesis was engrafted onto an acrylic model of the orbit as a qualitative indication of its overall accuracy. High anatomic accuracy was achieved, as determined by vis… Show more

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Cited by 23 publications
(33 citation statements)
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“…The laser beam interacts with the powder to increase the local temperature to the glass transition temperature of the powder, causing the particles to fuse to each other as well as the layer underneath. 119 STL 21,26,40,50,57,71,78,100 uses an ultraviolet (UV) laser beam to selectively polymerize a liquid photocurable monomer, a layer at a time. 88 The CAD data guides the UV beam onto the liquid surface, which is then lowered to enable the liquid photopolymer to cover the surface.…”
Section: Introductionmentioning
confidence: 99%
“…The laser beam interacts with the powder to increase the local temperature to the glass transition temperature of the powder, causing the particles to fuse to each other as well as the layer underneath. 119 STL 21,26,40,50,57,71,78,100 uses an ultraviolet (UV) laser beam to selectively polymerize a liquid photocurable monomer, a layer at a time. 88 The CAD data guides the UV beam onto the liquid surface, which is then lowered to enable the liquid photopolymer to cover the surface.…”
Section: Introductionmentioning
confidence: 99%
“…Recently, HA implants with designed porous structures have been produced using fugitive molds made by stereolithography, 37,38 a RP technique that builds models by scanning a photocurable epoxy resin with a laser. These molds were filled with a "reactive ceramic suspension" and, once cured, the mold and organic components of the suspension were pyrolysed and the ceramic sintered.…”
Section: Introductionmentioning
confidence: 99%
“…To produce polymer-ceramic scaffolds through stereolithography, ceramic particles (hydroxyapatite (HA) and tricalcium phosphate (TCP)) are homogenously dispersed on the polymeric material and subsequently photopolymerized [20,30,55,60]. These scaffolds are usually stiffer and stronger than the polymeric ones, as a result of the incorporation of powder particles.…”
Section: Polymer/ceramic Blendsmentioning
confidence: 99%
“…Levy et al [60] used a ceramic suspension consisting of HA powder and photocurable resin to produce ceramic scaffolds for orbital floor prosthesis. After polymerization, the resin was removed by heating and the resulting ceramic scaffold consolidated by sintering.…”
Section: Fig 18mentioning
confidence: 99%