Surgical implant placement in the orbital region for the support of a prosthesis is challenging
due to the thin orbital rim and proximity to vital structures. This article reports the use of a …

Implant placement in orbital sites is challenging because of limited bone volume and poor
bone quality. Preoperative optimal implant planning and intraoperative guides are important …

Purpose: The purpose of this study is to report on the use of a computer-assisted design
(CAD) system for predictable preoperative planning of orbital implant surgery (determination …

Purpose: Implant-retained facial prostheses are becoming increasingly sophisticated. We
describe our experience with successful implant placement. Methods: Retrospective case …

Defects of orbital walls can be reconstructed using implants. The authors report a safe and
accurate method to reconstruct bone defects in the orbital area using patient specific …

Purpose Reconstruction of orbital deformities is a challenging task. Virtual 3-dimensional
(3D) planning and the use of patient-specific implants (PSIs) could improve anatomic and …

Purpose Extrinsic trauma to the orbit may cause a blowout or orbital fracture, which often
requires surgery for reconstruction of the orbit and repositioning of the eyeball with an …

Optimal positioning of bone-anchored implants in the treatment of patients with orbital
prosthesis is challenging. The definition of implant axis as well as the positioning of the …

Objective Advanced three-dimensional (3D) diagnostics and preoperative planning are the
first steps in computer-assisted surgery (CAS). They are an integral part of the workflow, and …

This systematic review was aimed at gathering technical and clinical applications of
CAD/CAM technology for the preoperative planning of craniofacial implants placement …