The PocketPerio application significantly increases the accuracy of diagnosing periodontal conditions in didactic and chairside settings

Parsegian, Karo; Okano, David K.; Chandrasekaran, Sangeetha; Kim, Yoolim; Carter, Tonia C.; Shimpi, Neel; Fadakar, Sadaf; Angelov, Nikola

doi:10.1038/s41598-024-59394-9

Sci Rep

2024

DOI: 10.1038/s41598-024-59394-9

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The PocketPerio application significantly increases the accuracy of diagnosing periodontal conditions in didactic and chairside settings

Karo Parsegian,

David K. Okano,

Sangeetha Chandrasekaran

et al.

Abstract: The study aimed to determine the accuracy of diagnosing periodontal conditions using the developed web-based PocketPerio application and evaluate the user’s perspective on the use of PocketPerio. First, 22 third-year dental students (DS3) diagnosed ten cases without PocketPerio (control) and with PocketPerio (test) during a mock examination. Then, 105 DS3, 13 fourth-year dental students (DS4), and 32 senior second-year International Standing Program students (ISP2) used PocketPerio chairside. Statistical analy… Show more

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Automating bone loss measurement on periapical radiographs for predicting the periodontitis stage and grade

Ameli,

Gibson,

Kornerup

et al. 2024

Front. Dent. Med

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BackgroundThe aim of this study was to develop and evaluate an automated approach for segmenting bone loss (BL) on periapical (PA) radiographs and predicting the stage and grade of periodontitis.MethodsOne thousand PA radiographs obtained from 572 patients were utilized for training while a separate set of 1,582 images from 210 patients were used for testing. BL was segmented using a U-Net model, which was trained with augmented datasets to enhance generalizability. Apex detection was performed using YOLO-v9, focusing on identifying apexes of teeth to measure root length. Root length was calculated as the distance between the coordinates of detected apexes and center of cemento-enamel junction (CEJ), which was segmented utilizing a U-Net algorithm. BL percentage (ratio of BL to the root length) was used to predict the stage and grade of periodontitis. Evaluation metrics including accuracy, precision, recall, F1-score, Intersection over Union (IoU), mean absolute error (MAE), intraclass correlation coefficients (ICC), and root mean square error (RMSE) were used to evaluate the models’ performance.ResultsThe U-Net model achieved high accuracy in segmenting BL with 94.9%, 92.9%, and 95.62% on training, validation, and test datasets, respectively. The YOLO-v9 model exhibited a mean Average Precision (mAP) of 66.7% for apex detection, with a precision of 79.6% and recall of 62.4%. The BL percentage calculated from the segmented images and detected apexes demonstrated excellent agreement with clinical assessments, with ICC exceeding 0.94. Stage and grade prediction for periodontitis showed robust performance specifically for advanced stages (III/IV) and grades (C) with an F1-score of 0.945 and 0.83, respectively.ConclusionThe integration of U-Net and YOLO-v9 models for BL segmentation and apex detection on PA radiographs proved effective in enhancing the accuracy and reliability of periodontitis diagnosis and grading.

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Automating bone loss measurement on periapical radiographs for predicting the periodontitis stage and grade

Ameli,

Gibson,

Kornerup

et al. 2024

Front. Dent. Med

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show abstract

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The PocketPerio application significantly increases the accuracy of diagnosing periodontal conditions in didactic and chairside settings

Cited by 1 publication

References 42 publications

Automating bone loss measurement on periapical radiographs for predicting the periodontitis stage and grade

Automating bone loss measurement on periapical radiographs for predicting the periodontitis stage and grade

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