Publicly Available Dental Image Datasets for Artificial Intelligence.

Journal: Journal of dental research
PMID: 39422586

Abstract

The development of artificial intelligence (AI) in dentistry requires large and well-annotated datasets. However, the availability of public dental imaging datasets remains unclear. This study aimed to provide a comprehensive overview of all publicly available dental imaging datasets to address this gap and support AI development. This observational study searched all publicly available dataset resources (academic databases, preprints, and AI challenges), focusing on datasets/articles from 2020 to 2023, with PubMed searches extending back to 2011. We comprehensively searched for dental AI datasets containing images (intraoral photos, scans, radiographs, etc.) using relevant keywords. We included datasets of >50 images obtained from publicly available sources. We extracted dataset characteristics, patient demographics, country of origin, dataset size, ethical clearance, image details, FAIRness metrics, and metadata completeness. We screened 131,028 records and extracted 16 unique dental imaging datasets. The datasets were obtained from Kaggle (18.8%), GitHub, Google, Mendeley, PubMed, Zenodo (each 12.5%), Grand-Challenge, OSF, and arXiv (each 6.25%). The primary focus was tooth segmentation (62.5%) and labeling (56.2%). Panoramic radiography was the most common imaging modality (58.8%). Of the 13 countries, China contributed the most images (2,413). Of the datasets, 75% contained annotations, whereas the methods used to establish labels were often unclear and inconsistent. Only 31.2% of the datasets reported ethical approval, and 56.25% did not specify a license. Most data were obtained from dental clinics (50%). Intraoral radiographs had the highest findability score in the FAIR assessment, whereas cone-beam computed tomography datasets scored the lowest in all categories. These findings revealed a scarcity of publicly available imaging dental data and inconsistent metadata reporting. To promote the development of robust, equitable, and generalizable AI tools for dental diagnostics, treatment, and research, efforts are needed to address data scarcity, increase diversity, mandate metadata completeness, and ensure FAIRness in AI dental imaging research.

Authors

  • S E Uribe
    Department of Conservative Dentistry and Oral Health, Riga Stradins University, Riga, Latvia.
  • J Issa
    Chair of Practical Clinical Dentistry, Department of Diagnostics, Poznań University of Medical Sciences, Poznań, Poland.
  • F Sohrabniya
    Topic Group Dental Diagnostic and Digital Dentistry, ITU/WHO Focus Group AI on Health, Berlin, Germany.
  • A Denny
    Independent researcher, Ramstein, Germany.
  • N N Kim
    College of Arts and Sciences, University of Pennsylvania, Philadelphia, PA, USA.
  • A F Dayo
    Department of Oral Medicine, University of Pennsylvania School of Dental Medicine, Philadelphia, PA, USA.
  • A Chaurasia
    Department of Oral Medicine and Radiology, Faculty of Dental Sciences, King George's Medical University, Uttar Pradesh, India.
  • A Sofi-Mahmudi
    Department of Health Research Methods, Evidence, and Impact, McMaster University, Hamilton, ON, Canada.
  • M Büttner
    Department of Oral Diagnostics, Digital Health and Health Services Research, Charité-Universitätsmedizin Berlin, 14197 Berlin, Germany; ITU/WHO Focus Group AI4Health, Topic Group Dental Diagnostics and Digital Dentistry, Geneva, Switzerland.
  • F Schwendicke
    Department of Operative and Preventive Dentistry, Charité - Universitätsmedizin Berlin, Berlin, Germany.

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