Automatic multi-anatomical skull structure segmentation of cone-beam computed tomography scans using 3D UNETR.
Maxime GillotBaptiste BaqueroCelia LeRomain Deleat-BessonJonas BianchiAntonio RuellasMarcela GurgelMarilia YatabeNajla Al TurkestaniKayvan NajarianReza SoroushmehrSteve PieperRon KikinisBeatriz PaniaguaJonathan GryakMarcos IoshidaCamila MassaroLiliane GomesHeesoo OhKarine EvangelistaCauby Maia Chaves JuniorDaniela GaribFábio CostaErika BenavidesFabiana SokiJean-Christophe Fillion-RobinHina JoshiLucia CevidanesJuan Carlos PrietoPublished in: PloS one (2022)
The segmentation of medical and dental images is a fundamental step in automated clinical decision support systems. It supports the entire clinical workflow from diagnosis, therapy planning, intervention, and follow-up. In this paper, we propose a novel tool to accurately process a full-face segmentation in about 5 minutes that would otherwise require an average of 7h of manual work by experienced clinicians. This work focuses on the integration of the state-of-the-art UNEt TRansformers (UNETR) of the Medical Open Network for Artificial Intelligence (MONAI) framework. We trained and tested our models using 618 de-identified Cone-Beam Computed Tomography (CBCT) volumetric images of the head acquired with several parameters from different centers for a generalized clinical application. Our results on a 5-fold cross-validation showed high accuracy and robustness with a Dice score up to 0.962±0.02. Our code is available on our public GitHub repository.
Keyphrases
- deep learning
- cone beam computed tomography
- artificial intelligence
- convolutional neural network
- clinical decision support
- healthcare
- big data
- electronic health record
- machine learning
- randomized controlled trial
- computed tomography
- mental health
- minimally invasive
- emergency department
- magnetic resonance
- body composition
- cell therapy
- image quality