Litcius/Paper detail

Design of 3D‐printed macro‐models for undergraduates' preclinical practice of endodontic access cavities

Matéo Pouhaër, Guillaume Picart, David Baya, Pierre Michelutti, Anne Dautel, Matthieu Pérard, Justine Le Clerc

2021European Journal Of Dental Education25 citationsDOI

Abstract

INTRODUCTION: Endodontic access cavity is one of the steps most feared by dental students. The objective of the present work was to show the design phases of different realistic macro-models of a lower first molar, showing root canal anatomy and the ideal access cavity. MATERIALS AND METHODS: Virtual models were designed with MeshMixer, MeshLab and Blender from the data collected (X-rays, CBCT and optical impression) and then printed. Two types of printers-FDM (fused deposition modelling) and SLA (stereolithography) printers-were used to obtain different prototypes which led to final models. A satisfaction questionnaire was then sent to students, after manipulation, to assess the relevance of these models. RESULTS: Two final models of a lower first molar with an extended size (×9) were finally printed with an SLA laser printer with a transparent liquid resin. The first model represented the tooth with its optimal endodontic access cavity. The second one was designed to be divided into two parts according to a mesio-distal axis in order to visualise the root canal system. Most students found these macro-models to be effective tools for endodontic training. DISCUSSION: 3D printing is a proven technology which is no exception in dentistry. Some authors have already proposed 3D-printed replicas of teeth for endodontic education. Macro-models have been designed, printed and made available to students during preclinical courses before and during training. CONCLUSION: These educational macro-models should strengthen the knowledge and skills of students to improve their clinical and future practice within the dental office.

Topics & Concepts

StereolithographyMacro3D printing3d printedRoot canalComputer scienceFused deposition modelingDentistryMolarOrthodonticsBiomedical engineeringMedicineEngineeringMechanical engineeringProgramming languageDental Research and COVID-19Anatomy and Medical TechnologyEndodontics and Root Canal Treatments