Dissertation/Thesis Abstract

Spectral and Image-Guided Laser Ablation for Dental Applications
by Chan, Kenneth Henry, Ph.D., University of California, San Francisco, 2018, 210; 10981708
Abstract (Summary)

Although there has been progress in reducing the incidence of dental decay, dental caries remains a significant health problem and a new approach towards the treatment of dental caries with an emphasis on early detection and minimal intervention would be a significant step forward. Systems that can rapidly and selectively remove caries and/or composite from tooth surfaces while minimizing the inadvertent removal of healthy tooth structure would be a significant improvement over current methods. These fundamental studies will significantly advance our overall knowledge of laser-tissue interactions and facilitate the development of safer and more efficient laser systems for the removal of dental caries and restorative materials.

The overall objective of this proposed research is to develop laser-based methods for the selective removal of dental caries and composite restorative materials using an integrated approach of computer-controlled laser-scanning coupled with methods of feedback. In addition to eliminating unpleasant noise and vibration associated with conventional dental handpieces, lasers deliver unparalleled precision, and sterilize tissue. The objective of this proposal will be achieved through the following two specific aims: (1) Test the hypothesis that near-IR imaging systems can be combined with IR laser systems for the image-guided selective ablation of carious lesions; and (2) Test the hypothesis that spectral analysis can be used with a pulsed CO2 laser system for the selective removal of dental composites and sealants. These fundamental studies will significantly further our knowledge of the interaction of laser radiation with dental hard tissues and aid the development of safer and more effective feedback-guided laser systems over existing methods for the removal of dental caries and restorative materials. Furthermore, laser feedback systems have the potential to globally advance the standard of healthcare with increased conservative care for cavity preparations and dental restoration replacement procedures.

Indexing (document details)
Advisor: Fried, Daniel
Commitee: Darling, Cynthia L., Staninec, Michal, Tosun, Duygu
School: University of California, San Francisco
Department: Oral and Craniofacial Sciences
School Location: United States -- California
Source: DAI-B 80/05(E), Dissertation Abstracts International
Subjects: Biomedical engineering, Dentistry
Keywords: Cariology, Lasers, Near-infrared imaging, Optical coherence tomography, Optics
Publication Number: 10981708
ISBN: 978-0-438-77818-4
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