Early occlusal caries detection using targeted fluorescent starch nanoparticles

•Fluorescent cationic starch nanoparticles can assist caries detection.•Targeted nanoparticles illuminate caries with high sensitivity and specificity.•Fluorescent nanoparticles enhance detection of early enamel caries lesions. We have previously shown fluorescent cationic starch nanoparticles (FCSN...

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Bibliographic Details
Published in:Journal of dentistry 2022-10, Vol.125, p.104243, Article 104243
Main Authors: Jones, Nathan A., Bloembergen, Wendy, Tenuta, Livia M.A., Flannagan, Susan E., Jones, Glenn W., Pan, Li-Chi, Newton, Mariah, Clarkson, Brian H., Lahann, Joerg, Bloembergen, Steven, González-Cabezas, Carlos
Format: Article
Language:English
Subjects:
Cavitation
Confidence intervals
Dental caries
Dental Caries - diagnosis
Dental Caries Susceptibility
Dental enamel
Dentistry
Enamel
Evaluation
Fluorescence
Histology
Humans
Humidity
Lesions
Light
Nanoparticles
Porosity
Reproducibility
Reproducibility of Results
Sensitivity analysis
Sensitivity and Specificity
Starch
Teeth
Visualization
Water
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Summary:•Fluorescent cationic starch nanoparticles can assist caries detection.•Targeted nanoparticles illuminate caries with high sensitivity and specificity.•Fluorescent nanoparticles enhance detection of early enamel caries lesions. We have previously shown fluorescent cationic starch nanoparticles (FCSNs) penetrate enamel surface porosity of active carious lesions, potentially aiding their detection. Here, we evaluate the in vitro diagnostic accuracy of FCSNs in detecting occlusal caries compared to histologic reference standard. 100 extracted human teeth were selected with sound (50), or either non-cavitated (25) or cavitated (25) lesions. A region of interest (ROI) on the occlusal surface was assessed for fluorescence by two independent examiners, after immersion in FCSN solution, water rinse, and illumination by dental curing lamp viewed through orange UV-filter glasses. ROIs were sectioned and evaluated by histology (Downer Criteria) as a gold standard for caries presence. Cohen's Kappa was determined for inter- and intra-examiner agreement, and sensitivity, specificity, and area under the curve of Receiver Operator Curves (ROCAUC) were calculated. The analysis was repeated for the subset of “early” lesions, defined as being limited to enamel. FCSN use resulted in substantial inter-user (k=0.74±0.07), and high intra-user agreement (k=0.80±0.06; 0.94±0.03, by examiner). Sensitivity, specificity and ROCAUC for FCSNs were 88.9%; 94.6%; 0.92±0.06 for all, and 76.9%, 94.6%, and 0.86±0.10 for early lesions. In post hoc analysis, sensitivity seemed to be greater with the FCSN than the expert visual exam, particularly for early lesions. FCSNs are a reproducible and accurate novel technology for occlusal caries detection, with high sensitivity and specificity compared to histology. Future clinical validation is necessary. FCSNs can improve early caries detection and shift treatment towards non-invasive approaches, improving oral health.
ISSN:0300-5712
1879-176X
DOI:10.1016/j.jdent.2022.104243