Abstract
Early detection of dental caries is known to be the key to the effectiveness of therapeutic and preventive approaches in dentistry. However, existing clinical detection techniques, such as radiographs, are not sufficiently sensitive to detect and monitor the progression of caries at early stages. As such, in recent years, several optics-based imaging modalities have been proposed for the early detection of caries. The majority of these techniques rely on the enhancement of light scattering in early carious lesions, while a few of them are based on the enhancement of light absorption at early caries sites. In this paper, we report on a systemic comparative study on the detection performances of optical coherence tomography (OCT) and thermophotonic lock-in imaging (TPLI) as representative early caries detection modalities based on light scattering and absorption, respectively. Through controlled demineralization studies on extracted human teeth and µCT validation experiments, several detection performance parameters of the two modalities such as detection threshold, sensitivity and specificity have been qualitatively analyzed and discussed. Our experiment results suggests that both modalities have sufficient sensitivity for the detection of well-developed early caries on occlusal and smooth surfaces; however, TPLI provides better sensitivity and detection threshold for detecting very early stages of caries formation, which is deemed to be critical for the effectiveness of therapeutic and preventive approaches in dentistry. Moreover, due to the more specific nature of the light absorption contrast mechanism over light scattering, TPLI exhibits better detection specificity, which results in less false positive readings and thus allows for the proper differentiation of early caries regions from the surrounding intact areas. The major shortcoming of TPLI is its inherent depth-integrated nature, prohibiting the production of depth-resolved/B-mode like images. The outcomes of this research justify the need for a light-absorption based imaging modality with the ability to produce tomographic and depth-resolved images, combining the key advantages of OCT and TPLI.
Highlights
Dental caries is a chronic infectious disease caused by the bacterial deposits in dental biofilms which produce acids when digesting the carbohydrates in foods
Light absorption is further enhanced by the local enhancement of light scattering at caries as it results in increase in the local laser light flux within the caries area
Our experimental results suggests that both modalities have sufficient sensitivity for detection of well-developed early caries on occlusal and smooth surfaces; thermophotonic lock-in imaging (TPLI) provides better sensitivity and detection threshold in detecting very early stages of caries formation which is deemed to be critical for effectiveness of therapeutic and preventive approaches in Dentistry
Summary
Dental caries is a chronic infectious disease caused by the bacterial deposits in dental biofilms which produce acids when digesting the carbohydrates in foods. Despite the promising therapeutic techniques offered by the state-of-the-art in preventive dentistry [3], dental caries continues to be a major public health challenge in both children and adults [4] The reason behind this ineffectiveness is due to the fact that the success of therapeutic techniques in stopping the progression of dental caries to cavities, strongly rely on detection of caries at the very early stages of formation [3]. Unlike x-ray imaging modalities, which are carcinogenic and may cause molecular changes in biologic systems [8], optics-based technologies use non-ionizing laser light that is safe for tissue and very sensitive to small changes in tissue properties [9]. In this paper, we report on a systemic comparison of OCT and TPLI (as representative techniques based on light scattering and absorption, respectively), identifying the advantages and limitations of each technique in detecting artificiallyinduced/standardized early dental caries
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