Affiliation:
1. Division of Periodontics Department of Diagnostic and Preventive Sciences College of Dentistry The University of Oklahoma Health Sciences Center Oklahoma City Oklahoma USA
2. Department of Oral Biology Surgery and Biomedical Engineering University at Buffalo Buffalo New York USA
3. Division of Prosthodontics Department of Restorative Sciences College of Dentistry The University of Oklahoma Health Sciences Center Oklahoma City Oklahoma USA
4. Department of Prosthodontics Kyungpook National University School of Dentistry Daegu South Korea
Abstract
AbstractThis technique presents a workflow that designs the custom surgical guide to cover a trephine bur using simple slicer software and three‐dimensional (3D) printing to perform the semilunar technique. This method in autogenous bone grafting surgery harvests a thin layer of cortical bone in the donor site with a trephine bur. Its biologically favorable, round shape can be used as a shell to reconstruct the ridge with a 3D contour acceptable for future implant placement. A 78‐year‐old female patient required vertical and horizontal bone grafting for future implant placement due to the infection caused by the vertically fractured root of a premolar. The patient's cone beam computed tomography (CBCT) file was translated into a standard tessellation language (STL) file, and recipient and donor site models were created. Simulated surgery was done using the software first to detect any possible complications during surgery. The trephine bur planned for use in surgery was measured in necessary dimensions, and the values were added to create a guide for surgery in slicer software. Then, it was 3D‐printed with a stereolithography (SLA) printer. After testing the fit of the guide, it was further tested on a fused filament fabrication (FFF) printed donor site model to check if the desired shape and size of the plate were acquired after harvest. Then, the plates were used for model surgery on the recipient site model. After no issues from the previous steps, the final patient surgery was approved and completed with success. This technique utilizes the SLA printing method to create the custom surgical guide for a trephine bur without using commercially available products. Moreover, it could be tested on FFF 3D‐printed anatomical models to ensure its validity. With this innovative technique, clinicians can efficiently perform a semilunar technique, facilitating the surgery and improving patient care.