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Acrylic Sphere Implants
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Date:
April 14, 2009
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Acrylic Sphere Implants
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Company:
Date:
April 14, 2009
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Bioceramic orbital implants from FCI Ophthalmics provide physicians with an effective means for facilitating enucleation and evisceration procedures. The implants insert easily into the orbital socket and do not cling to surrounding tissue. The improved connectivity that occurs between pores enhances vascularization, and the implants may be easily drilled without crumbling
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Company:
Date:
April 21, 2009
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This unique, patented implant was released by the US Food and Drug Administration (FDA) in 1989. Today, over 25,000 people worldwide have benefited from this natural alternative, which is now known as the Bio-eye Hydroxyapatite Orbital Implant, or simply the Bio-eye implant. In addition to natural eye movement, the Bio-eye orbital implant offers many less-obvious benefits. It reduces implant migration and extrusion, which were common with the first-generation implants, and it can prevent drooping of the lower lid (Fig. 5) by lending support to the artificial eye via a peg connection. These are
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Company:
Date:
June 22, 2009
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BIOPORE Orbital Implants provide surgeons with porous biocompatible implants for orbital reconstruction following enucleation and evisceration procedures.
BIOPORE Surgical Implants are manufactured from linear high density polythylene. The porosity of BIOPORE Biomaterial is maintained large with average pore size larger than 100 micrometers and a pore volume in the 40-50 percent range.
The interconnecting, omni directional pore structure of the BIOPORE Biomaterial allows for rapid vascularization and soft tissue ingrowth.
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Company:
Date:
June 22, 2009
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Acrylic Sphere Implants
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Company:
Date:
April 14, 2009
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Ceramisys Orbital Implants are comprised of either porous synthetic, medical grade, Hydroxyapatite, or Aluminium Oxide (Alumina), have a controlled microstructure designed to support soft tissue ingrowth and are available in a range of convenient sizes.
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Company:
Date:
June 22, 2009
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Egg-shaped bioceramic orbital implants from FCI Ophthalmics have the same great benefits as their spherical counterpart.
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Company:
Date:
April 21, 2009
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Biocompatible and Bioactive Material Extremely Lightweight Round and spherical shapes are available size from 12,14,16,18,20,21 mm
Porous Structure for Vascularisation : Orbital implant design is engineered to be 70 porous with pore sizes ranging from 100 to 300 microns .The result is within six months of surgery ,tissues and blood vessels encompass the orbital implant and as a result this will move freely providing good movement.The structure of the porous model permits fibrovascular ingrowth into the implant which facilitates stability within the eye socket.
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Company:
Date:
June 22, 2009
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Channel Implants are designed for repair of significant orbital floor and wall trauma where the addition of one or more rigid fixation plates provides structural support. After the MEDPOR Implant is cut to the desired shape, a rigid fixation plate is inserted in the channel. The plate may extend out both ends of the implant if desired. The plate allows the surgeon to bend and contour the implant to the desired shape. Once the implant shape and proper position is determined, the end of the plate is fixed to the orbital rim.
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Company:
Date:
June 29, 2009
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