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Related Concept Videos

Veneer01:19

Veneer

Veneer refers to a thin sheet of wood, typically produced to a thickness of about one-eighth of an inch or less. This material is crafted through various methods, the most common being rotary cutting. In this process, a log is mounted into a large lathe and spun against a knife edge, peeling off a continuous strip of wood as the knife penetrates deeper into the rotating log, creating a rotary-cut veneer.
Other veneering techniques include plain-slicing, quarter-slicing, and rift-slicing. These...

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Related Experiment Video

Updated: Jul 8, 2026

Detection and Removal of Tooth-Colored Composite Resin Using the Fluorescence-Aided Identification Technique
05:42

Detection and Removal of Tooth-Colored Composite Resin Using the Fluorescence-Aided Identification Technique

Published on: July 27, 2022

A technique using resin composite with orthodontic wire to replace a missing tooth rapidly.

Yuichi Kitasako1, Masaomi Ikeda, Michael F Burrow

  • 1Cariology and Operative Dentistry, Department of Restorative Sciences, Graduate School, Tokyo Medical and Dental University, Tokyo, Japan. kitasako.ope@tmd.ac.jp

Dental Traumatology : Official Publication of International Association for Dental Traumatology
|January 5, 2008
PubMed
Summary

This study presents a novel direct resin composite fixed partial denture (FPD) reinforced with an orthodontic wire framework for repairing missing teeth. This technique offers a durable and aesthetic solution for tooth loss, maintaining natural tooth structure.

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Last Updated: Jul 8, 2026

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Area of Science:

  • Dentistry
  • Restorative Dentistry
  • Dental Materials

Background:

  • Missing anterior or premolar teeth require conservative treatment to preserve abutment teeth.
  • Direct resin composite fixed partial dentures (FPDs) offer aesthetic advantages over metal substructures but are prone to mechanical failure.
  • Fabrication limitations and design issues often compromise the longevity of direct resin composite FPDs.

Observation:

  • A novel technique for direct resin composite FPDs using an integrated orthodontic wire framework is described.
  • A U-shaped orthodontic wire was secured in prepared enamel dimples below the contact area.
  • The wire was treated with an alloy primer, coated with adhesive resin, and veneered with resin composite.

Findings:

  • The combined U-shaped wire and enamel dimple technique demonstrated successful functional and esthetic repair for missing teeth.
  • This innovative FPD approach showed positive results and durability for over 12 months in clinical cases.
  • The method effectively addressed mechanical failures associated with conventional direct resin composite FPDs.

Implications:

  • This technique provides a conservative and aesthetically pleasing alternative for restoring missing incisors and premolars.
  • The use of an orthodontic wire framework enhances the mechanical strength and longevity of direct resin composite FPDs.
  • This approach minimizes the need for extensive tooth preparation, preserving sound abutment teeth.