Automated segmentation of the mandibular canal and its anterior loop by deep learning

Oliveira-Santos, Nicolly; Jacobs, Reinhilde; Pícoli, Fernando Fortes; Lahoud, Pierre; Niclaes, Liselot; Groppo, Francisco Carlos

doi:10.1038/s41598-023-37798-3

Cited by 11 publications

(4 citation statements)

References 36 publications

(52 reference statements)

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“…They stated that AI can serve as a reliable tool for canal determination and play a significant role in implant planning in the future. Similar results were also noted by Oliveira-Santos et al where the mandibular canal, along with its variation (anterior loop), was determined by AI with high accuracy [ 14 ]. For the segmentation of the maxillary sinus, the AI model used by Morgan et al provided consistent automatic segmentation, which could allow for the precise reproduction of 3D models for diagnosis and treatment planning [ 15 ].…”

Section: Reviewsupporting

confidence: 87%

The Impact of Artificial Intelligence on Dental Implantology: A Narrative Review

Altalhi,

Alharbi,

Alhodaithy

et al. 2023

Cureus

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Implant dentistry has witnessed a transformative shift with the integration of artificial intelligence (AI) technologies. This article explores the role of AI in implant dentistry, emphasizing its impact on diagnostics, treatment planning, and patient outcomes. AI-driven image analysis and deep learning algorithms enhance the precision of implant placement, reducing risks and optimizing aesthetics. Moreover, AI-driven data analytics provide valuable insights into patient-specific treatment strategies, improving overall success rates. As AI continues to evolve, it promises to reshape the landscape of implant dentistry and lead in an era of personalized and efficient oral healthcare.

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Section: Reviewsupporting

confidence: 87%

The Impact of Artificial Intelligence on Dental Implantology: A Narrative Review

Altalhi,

Alharbi,

Alhodaithy

et al. 2023

Cureus

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“…The 3D U-Net model utilizes shortcut connections to merge highresolution data from the analysis and synthesis paths. Previous studies have used the 3D U-Net architecture for 3D MC segmentation in several research papers [33], [63], [84], [85], [86]. The 3D U-Net method was used to automatically locate the bilateral MC [63].…”

Section: ) 3d U-netmentioning

confidence: 99%

“…The 3D U-Net method was used to automatically locate the bilateral MC [63]. Additionally, previous studies have shown that using 3D U-Net has resulted in precise MC and alveolar bone segmentation, a critical factor in preventing nerve damage during surgical interventions [87].…”

Section: ) 3d U-netmentioning

confidence: 99%

“…Detecting the MC proves to be a formidable task for researchers due to its intricate anatomy shape. To enhance model performance, researchers engage in preliminary anatomical analyses, particularly concerning the loop position of the MC in the premolar teeth [87]. This initial stage holds substantial influence over the success of MC segmentation.…”

Section: ) Limited Public Datasetmentioning

confidence: 99%

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Deep Learning for Mandibular Canal Segmentation in Digital Dental Radiographs: A Systematic Literature Review

Farid Naufal,

Fatichah,

Renwi Astuti

et al. 2024

IEEE Access

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Context: Several recent studies in dentistry and maxillofacial imaging have concentrated on the mandibular canal (MC) segmentation in digital dental radiographs. In this research domain, deep learning approaches have demonstrated promising outcomes. Objective: This systematic literature review (SLR) aims to comprehensively analyze and synthesize the recent advancements in applying deep learning techniques for MC segmentation in digital dental radiographs. Method: This review encompasses studies published between 2018 and 2023, sourced from reputable databases, including PubMed, ScienceDirect, IEEE Xplore, and Google Scholar. Results: This study identified 30 primary research papers focusing on MC segmentation in digital dental radiographs. The review categorizes papers into two groups based on the digital dental radiograph type. The first group uses a 2D digital dental radiograph from a panoramic radiograph and 2D Cone Beam Computed Tomography (CBCT) scans. The second group uses 3D datasets from volumetric data from CBCT scans. Conclusion:The synthesized knowledge from this review is intended to guide researchers, dentists, and oral surgeons in leveraging deep learning advancements in MC segmentation for oral and maxillofacial surgery. Prior studies have faced challenges, including limited public datasets, variations in MC anatomy, time consumption and observer variability in MC annotation, complexities in deep learning models, and lack of practical implementation. To overcome these challenges, it is suggested that more public datasets be collaboratively created and shared within the research community, focusing on handling anatomy variability, improving digital dental radiograph quality, streamlining annotation processes through automated tools, and simplifying deep learning models for practical implementation.

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Applications of Machine Learning in Periodontology and Implantology: A Comprehensive Review

Șalgău,

Morar,

Zgarta

et al. 2024

Ann Biomed Eng

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Machine learning (ML) has led to significant advances in dentistry, easing the workload of professionals and improving the performance of various medical processes. The fields of periodontology and implantology can profit from these advances for tasks such as determining periodontally compromised teeth, assisting doctors in the implant planning process, determining types of implants, or predicting the occurrence of peri-implantitis. The current paper provides an overview of recent ML techniques applied in periodontology and implantology, aiming to identify popular models for different medical tasks, to assess the impact of the training data on the success of the automatic algorithms and to highlight advantages and disadvantages of various approaches. 48 original research papers, published between 2016 and 2023, were selected and divided into four classes: periodontology, implant planning, implant brands and types, and success of dental implants. These papers were analyzed in terms of aim, technical details, characteristics of training and testing data, results, and medical observations. The purpose of this paper is not to provide an exhaustive survey, but to show representative methods from recent literature that highlight the advantages and disadvantages of various approaches, as well as the potential of applying machine learning in dentistry.

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Automated segmentation of the mandibular canal and its anterior loop by deep learning

Cited by 11 publications

References 36 publications

The Impact of Artificial Intelligence on Dental Implantology: A Narrative Review

The Impact of Artificial Intelligence on Dental Implantology: A Narrative Review

Deep Learning for Mandibular Canal Segmentation in Digital Dental Radiographs: A Systematic Literature Review

Applications of Machine Learning in Periodontology and Implantology: A Comprehensive Review

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