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A combined conventional-digital workflow for predictable cross-arch guide plane reduction.

Gregory W Bennett1, Leslie Smith2

  • 1Assistant Professor, Department of Adult Restorative Dentistry, University of Nebraska Medical Center College of Dentistry, Lincoln, Neb.

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|January 17, 2021
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Summary
This summary is machine-generated.

A novel 3D-printed guide streamlines dental procedures for removable partial dentures. This digital workflow enhances precision in preparing teeth for restorations, improving patient outcomes.

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Area of Science:

  • Dental Technology
  • Prosthodontics
  • Digital Dentistry

Background:

  • Removable partial dentures require precise tooth preparation for optimal fit and function.
  • Traditional methods for creating guides can be time-consuming and may lack accuracy.

Purpose of the Study:

  • To describe a combined conventional and digital workflow for fabricating a 3D-printed complete-arch reduction guide.
  • To evaluate the guide's utility in preparing precise guide planes for a patient needing a removable partial denture.

Main Methods:

  • A 3D-printed complete-arch reduction guide was created using a combined workflow.
  • The guide was used to prepare guide planes on specific teeth (maxillary first molars, first premolars, central incisors) ensuring cross-arch parallelism.
  • The guide served as both a visual and physical aid during tooth preparation.

Main Results:

  • The 3D-printed guide facilitated the preparation of accurate guide planes with cross-arch parallelism.
  • The workflow enabled precise preparation for a removable partial denture opposing missing teeth.
  • The guide proved effective as a visual and physical tool for tooth preparation.

Conclusions:

  • A combined conventional and digital workflow is effective for producing 3D-printed reduction guides.
  • This method enhances precision in preparing abutment teeth for removable partial dentures.
  • 3D-printed guides offer a valuable tool for improving accuracy in restorative dentistry.