Matt Nejad DDS Matt Nejad DDS Beverly Hills, California, United States
Disclosure(s):
Matt Nejad, DDS: Addent, Inc.: I receive financial support (Ongoing); Amann Girrbach: I receive financial support (Ongoing); Bien-Air: I receive financial support (Ongoing); Dentatus: I receive financial support (Ongoing); Garrison: I receive financial support (Ongoing), Royalties (Ongoing); GC America: I receive financial support (Ongoing); Komet USA: I receive financial support (Ongoing); Kuraray: I receive financial support (Ongoing); Medit: I receive financial support (Ongoing); Myotronics-Noromed, Kettenbach USA,: I receive financial support (Ongoing); Pearl: I receive financial support (Ongoing), Ownership Interest (stocks, stock options, patent or other intellectual property or other ownership interest excluding diversified mutual funds) (Ongoing); Sprintray: Board Member/Advisory Panel (Ongoing), I receive financial support (Ongoing), Ownership Interest (stocks, stock options, patent or other intellectual property or other ownership interest excluding diversified mutual funds) (Ongoing); Ultradent: I receive financial support (Ongoing); Weave communications: I receive financial support (Ongoing)
In this Presentation, you will explore the use of indirect restorations in biomimetic dentistry, a treatment approach that aims to preserve and restore the natural structure and function of teeth. Adhesive procedures that maximize bond strength are used to repair teeth and replicate the structural properties and biomechanics of intact teeth. Indirect restorations such as inlays and onlays offer numerous benefits and are preferred over more invasive options like crowns. The course will cover preparation principles, material selection, and treatment techniques for creating biomimetic restorations.
Learning Objectives:
Identify the advantages and indications for using indirect restorations in the biomimetic approach
Learn to select optimal materials for indirect biomimetic restorations
Apply adhesive procedures and techniques that maximize bond strength and performance of indirect restorations
