Silicone Eye Sphere is implanted within the eye sac during evisceration or enucl
Silicone Eye Sphere is implanted within the eye sac during evisceration or enucleation surgery to enable the future use of a prosthesis.
Silicone Eye Sphere is implanted within the eye sac during evisceration or enucl
Silicone Eye Sphere is implanted within the eye sac during evisceration or enucleation surgery to enable the future use of a prosthesis.
Symblepharon rings are effective in keeping ocular fornices formed after surgery
Symblepharon rings are effective in keeping ocular fornices formed after surgery, in situations where conjunctival cicatricial disease is present, or after ocular trauma such as chemical burns or avulsion of the conjunctiva. The ring prevent adhesions and shortening or retraction of the fornices and cul-de-sacs without touching the cornea.
Eye Sphere is implanted to fill the eye sac during evisceration or enucleation t
Eye Sphere is implanted to fill the eye sac during evisceration or enucleation to allow future use of a prosthesis.
Conformer is temporarily implanted between the eye ball and the eye lid to prote
Conformer is temporarily implanted between the eye ball and the eye lid to protect sutures and to prevent adhesion of the eye lid onto the eye sac. The Conformer also prevents the orbital socket from closing in on itself during the healing process and forces the muscles to conform around it. The holes in the conformer provide ventilation and act as an access point for eye drops.
Eye Sphere is implanted to fill the eye sac during evisceration or enucleation t
Eye Sphere is implanted to fill the eye sac during evisceration or enucleation to allow the future use of a prosthesis.
Symblepharon rings are used in order to keep ocular fornices formed after surger
Symblepharon rings are used in order to keep ocular fornices formed after surgery, in situations where conjunctival cicatricial disease is present, or after ocular trauma such as chemical burns or avulsion of the conjunctiva. The ring prevent adhesions and shortening or retraction of the fornices and cul-de-sacs without touching the cornea.
Conformer is temporarily implanted between the eye ball and the eye lid to prote
Conformer is temporarily implanted between the eye ball and the eye lid to protect sutures and to prevent adhesion of the eye lid onto the eye sac. The Conformer also prevents the orbital socket from closing in on itself during the healing process and forces the muscles to conform around it.
Conformer is temporarily implanted between the eye ball and the eye lid to prote
Conformer is temporarily implanted between the eye ball and the eye lid to protect sutures and to prevent adhesion of the eye lid onto the eye sac. The Conformer also prevents the orbital socket from closing in on itself during the healing process and forces the muscles to conform around it.
Manual tonometer used to gauge internal pressure within the eye. An allen wrench
Manual tonometer used to gauge internal pressure within the eye. An allen wrench can be used to adjust weight settings.
Silicone Eye Sphere is implanted within the eye sac during evisceration or enucl
Silicone Eye Sphere is implanted within the eye sac during evisceration or enucleation surgery to enable the future use of a prosthesis.
Eye Sphere is implanted to fill the eye sac during enucleation or evisceration s
Eye Sphere is implanted to fill the eye sac during enucleation or evisceration surgery to enable future use of a prosthesis.
Eye Sphere is implanted to fill the eye sac during evisceration or enucleation t
Eye Sphere is implanted to fill the eye sac during evisceration or enucleation to allow the future use of a prosthesis.
Eye Sphere is implanted to fill the eye sac during evisceration or enucleation t
Eye Sphere is implanted to fill the eye sac during evisceration or enucleation to allow future use of a prosthesis.
Manual Tonometer is used to gauge the internal pressure of the eye using weights
Manual Tonometer is used to gauge the internal pressure of the eye using weights and a tonometer tip.
Conformer is temporarily implanted between the eye ball and the eye lid to prote
Conformer is temporarily implanted between the eye ball and the eye lid to protect sutures and to prevent adhesion of the eye lid onto the eye sac. The Conformer also prevents the orbital socket from closing in on itself during the healing process and forces the muscles to conform around it.
Silicone Eye Sphere is implanted within the eye sac during evisceration or enucl
Silicone Eye Sphere is implanted within the eye sac during evisceration or enucleation surgery to enable the future use of a prosthesis.
Conformer is temporarily implanted between the eye ball and the eye lid to prote
Conformer is temporarily implanted between the eye ball and the eye lid to protect sutures and to prevent adhesion of the eye lid onto the eye sac. The Conformer also prevents the orbital socket from closing in on itself during the healing process and forces the muscles to conform around it. The holes in the conformer provide ventilation and act as an access point for eye drops.
Silicone Eye Sphere is implanted within the eye sac during evisceration or enucl
Silicone Eye Sphere is implanted within the eye sac during evisceration or enucleation surgery to enable the future use of a prosthesis.
Symblepharon rings are effective in keeping ocular fornices formed after surgery
Symblepharon rings are effective in keeping ocular fornices formed after surgery, in situations where conjunctival cicatricial disease is present, or after ocular trauma such as chemical burns or avulsion of the conjunctiva. The ring prevent adhesions and shortening or retraction of the fornices and cul-de-sacs without touching the cornea.
Conformer is temporarily implanted between the eye ball and the eye lid to prote
Conformer is temporarily implanted between the eye ball and the eye lid to protect sutures and to prevent adhesion of the eye lid onto the eye sac. The Conformer also prevents the orbital socket from closing in on itself during the healing process and forces the muscles to conform around it. The holes in the conformer provide ventilation and act as an access point for eye drops.
Eye Sphere is implanted to fill the eye sac during evisceration or enucleation t
Eye Sphere is implanted to fill the eye sac during evisceration or enucleation to allow the future use of a prosthesis.
Eye Sphere is implanted to fill the volume of the eye sac in enucleation and evi
Eye Sphere is implanted to fill the volume of the eye sac in enucleation and evisceration surgery to enable future use of a prosthesis.
A device designed to determine the appropriate size and placement of a non-denta
A device designed to determine the appropriate size and placement of a non-dental implant for a patient prior to or during implantation surgery. It is typically available as a graduated set or an individual plate (e.g., a translucent plastic sheet or a cut metal shape) with patterns/sizes corresponding to the size of the implant to be used to aid the surgeon in final selection of implant size, placement, and/or adaption. It is used for, e.g., total- or partial-joint prostheses, bone fracture fixation implants (plates, nails, including skull plate implants) or other types of surgical implants. This is a single-use device.
SIZERS SET (ENUCLEATION / EVISCERATION) SINGLE USE
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
An implantable ocular device designed to permanently fill the orbital cavity fol
An implantable ocular device designed to permanently fill the orbital cavity following enucleation, evisceration, or after the removal of another ocular implant (used as a secondary implant), to replace the volume and possibly, given the surgical method, to impart motion to the eventual ocular prosthesis (the artificial eyeball). It is typically aspherical and may have porous surfaces to facilitate colonization by fibrovascular tissue to offer the advantages of reduced risk of infection or implant extrusion. It is available in various sizes and is typically made of polymethylmethacrylate (PMMA), poly 2-hydroxyethylmethacrylate (PHEMA), or silicone.
Perforated Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucl
Perforated Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucleations, eviscerations.
Perforated Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucl
Perforated Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucleations and eviscerations.
Perforated Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucl
Perforated Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucleations and eviscerations.
Perforated Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucl
Perforated Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucleations and eviscerations.
Perforated Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucl
Perforated Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucleations and eviscerations.
Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucleations and
Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucleations and eviscerations.
Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucleations and
Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucleations and eviscerations.
Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucleations and
Coated Hydroxyapatite (HA) Orbital Implant & Conformer used for enucleations and eviscerations.