Digital Occlusal Analysis and Enamel Wear Assessment in Temporomandibular Disorder Patients Treated with Fully Digital Versus Conventional Stabilization Splints

Overview

This randomized controlled research aimed to analyse the occlusion and assist the enamel wear before and after using of the stabilization splints produced by the conventional methods with the fully digitally fabricated stabilization splints. Research question: Will the fully digital stabilization splint offer significantly better occlusal equilibration and enamel wear compared to the conventional stabilization splint? the primary outcome will be Digital occlusal analysis, and secondary outcome will be enamel wear assessment

This randomized controlled clinical trial investigates the effectiveness of fully digitally fabricated stabilization splints (FD-SS) versus conventionally manufactured stabilization splints (C-SS) in patients with temporomandibular disorders (TMD). The study focuses on two primary outcomes: digital occlusal analysis and enamel wear assessment over a 6-month period. Participants are TMD patients aged 18-40 with stable jaw relations and intact dentition, randomly assigned (1:1) to the FD-SS or C-SS group. Digital occlusal analysis is performed using OccluSense technology, which captures bite force distribution and contact points dynamically and statically. Enamel wear is assessed quantitatively using an intraoral scanner paired with Geomagic Control X 3D software for surface matching analysis. Baseline and follow-up STL datasets are compared to quantify volumetric enamel loss with micrometer precision. In the FD-SS group, fully digital stabilization splints are fabricated using a digital workflow that includes intraoral scanning, jaw tracking with Zebris JMA devices, and CAD/CAM design in Exocad software. Splints are manufactured using 3D printing technology. In the C-SS group, conventional splints are fabricated using alginate impressions, plaster casts, and manual adjustments on a semi-adjustable articulator. This study aims to advance the understanding of digital technologies in managing TMD, providing evidence for their efficacy in improving occlusal balance and minimizing enamel wear.