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<scp>3D</scp> printing of ultra‐thin veneers made of lithium disilicate using the <scp>LCM</scp> method in a digital workflow: A feasibility study

Josef Schweiger, Daniel Edelhoff, Oliver Schubert

2023Journal of Esthetic and Restorative Dentistry24 citationsDOIOpen Access PDF

Abstract

OBJECTIVE: This article highlights the feasibility of the additive fabrication of ultra-thin veneers made of lithium disilicate using the lithography-based ceramic manufacturing (LCM) method. CLINICAL CONSIDERATIONS: An esthetical appealing restoration of anterior teeth with thin ceramic veneers is considered one of the ultimate challenges in restorative dental prosthetics. These sophisticated restorations can be fabricated in different ways. Both analog and digital subtractive manufacturing processes have been used to date. Either of the methods is highly demanding for the dental technician and dental engineering due to the required low ceramic layer thickness. CONCLUSION: Modern additive manufacturing methods, for example LCM technology, enable the production of ultra-thin lithium disilicate veneers with layer thicknesses of down to 0.2 mm and could therefore represent a viable alternative for this indication in the future. CLINICAL SIGNIFICANCE: Digital technologies can help streamline workflows, make the outcome more predictable and reproducible, and even further optimize therapeutic restorative options such as highly esthetic veneers for anterior teeth. The reduced material thickness allows for a true non-prep solution or minimally invasive preparation.

Topics & Concepts

Lithium disilicateMaterials scienceCeramicDigital Light ProcessingSubtractive colorWorkflowDental ceramicsDental porcelain3D printingDental technicianCERECLayer (electronics)Computer scienceDentistryNanotechnologyComposite materialCubic zirconiaDatabaseArtificial intelligenceProjectorMedicineArtVisual artsDental materials and restorationsAdditive Manufacturing and 3D Printing TechnologiesAnatomy and Medical Technology
<scp>3D</scp> printing of ultra‐thin veneers made of lithium disilicate using the <scp>LCM</scp> method in a digital workflow: A feasibility study | Litcius