
ORBIT
3D Laser Sintering/Additive Manufacturing Customized Implant System.
3D Reconstruction of the orbit provides an effective, personalized restoration solution for especially complex clinical cases where conventional implants are not a suitable option.
ORBIT
3D Laser Sintering/Additive Manufacturing Customized Implant System.
3D Reconstruction of the orbit provides an effective, personalized restoration solution for especially complex clinical cases where conventional implants are not a suitable option.
CASE STUDIES
Customized Implant in the Maxilla
Read moreIndividually 3D printed customized implant
Read more3D “Custom Made Roofing” Technique for Maxillary Sinus Lift Augmentation
Read moreOrbital Floor Reconstruction using custom-made implant with screw fixation
Read morePatient specific implant: Customized subperiosteal implant for resorbed jaws
Read moreLPI: Laser Precision Implant, Customized subperiosteal implant for resorbed jaws
Read moreCustomized subperiosteal implant for lack of bone
Read moreLPI: Laser Precision Implant: Customized subperiosteal implant on the right mandible
Read moreBilateral mandibular edentulism: A subperiosteal Patient specific implant
Read more3d printed Facial Reconstruction following gunshot injury
Read moreReconstruction of complex mandibular defects using integrated dental custom-made implants
Read more
SURFACE ENERGY
Nanostructures generate the correct energy on the surface of the implant and stimulate
cellular activity.
Increased hydrophilia and cellular activity means more successful osseointegration.
With efficient cell selection, bone develops not only on the surface of the existing bone, but on the surface of the implant. This contact osteogenesis is vital for successful osseointegration and is critical in compromised cases.
This research describes the technology used to produce subperiosteal microtextured titanium implants by additive manufacturing with specific surface topography.
The ability of these implants to be osteogenic and to induce osseointegration of the implant outside bone envelopes will be demonstrated using two animal models.

SURFACE ENERGY
Nanostructures generate the correct energy on the surface of the implant and stimulate
cellular activity.
Increased hydrophilia and cellular activity means more successful osseointegration.
With efficient cell selection, bone develops not only on the surface of the existing bone, but on the surface of the implant. This contact osteogenesis is vital for successful osseointegration and is critical in compromised cases.
This research describes the technology used to produce subperiosteal microtextured titanium implants by additive manufacturing with specific surface topography.
The ability of these implants to be osteogenic and to induce osseointegration of the implant outside bone envelopes will be demonstrated using two animal models.