Three dimensional (3D) printing involves a number of additive manufacturing techniques
that are used to build structures from the ground up. This technology has been adapted to a …

Compared to traditional manufacturing methods, additive manufacturing and 3D printing
stand out in their ability to rapidly fabricate complex structures and precise geometries. The …

Recent developments in three-dimensional (3D) printing technology offer immense potential
in fabricating scaffolds and implants for various biomedical applications, especially for bone …

In this work, the influence on and application of machine learning (ML) to the domain of
Additive Manufacturing or synonymously 3D printing is reviewed. Existing literature is …

Objectives To describe and evaluate a novel surgical approach to orbital wall reconstruction
that uses three-dimensionally (3D) printed templates to mold a customized orbital implant …

The orbital floor (OF) is an anatomical location in the craniomaxillofacial (CMF) region
known to be highly variable in shape and size. When fractured, implants commonly …

Background This study evaluated the accuracy of blow out fracture reduction using 3D-
printed rapid prototyping (RP) skull modeling. Patients and methods Retrospective review …

In the forefront of ophthalmic innovation, biomimetic 3D printing and bioprinting technologies
are redefining patient-specific therapeutic strategies. This critical review systematically …

The aim of the present study was to determine the orbital reconstructive effect of customized
orbital implants using three-dimensional (3D) printed templates compared with conventional …

Three-dimensional printing enables precise modeling of anatomical structures and has
been employed in a broad range of applications across medicine. Its earliest use in eye care …