Artificial Intelligence Designed Single Tooth Dental Prostheses

Recruiting

• Conditions: Dental Prosthesis
• Interventions: Other: artificial intelligence (AI) computer assisted design (CAD)

• Registration Number: NCT05056948
• Lead Sponsor: The University of Hong Kong

Brief Summary

Tooth loss is common and as consequence deteriorate patient's health and quality-of-life. Dental prostheses aim to restore patients' appearance and functions by replacement of missing teeth. The occlusal morphology and 3D position of the healthy natural teeth should be adopted by the dental prostheses (biomimetic). Despite computer-assisted design (CAD) software are available for designing dental prostheses, considerable clinical time are still required to fit the dental prostheses into patients' occlusion (teeth-to-teeth relationship). Teeth of an individual subjects are genetically controlled and exposed to mostly identical oral environment, therefore the occlusal morphology and 3D position of teeth are inter-related. It is hypothesized that artificial intelligence (AI) can automated designing the single-tooth dental prostheses from the features of remaining dentition.

Detailed Description

Objectives:

1. To compare four deep-learning methods/algorithms in interpreting and learning of the features of 3D models;

2. To compare the AI system with maxillary tooth model alone to maxillary and mandibular (antagonist) models;

3. To compare the occlusal morphology and 3D position of the single-tooth dental prostheses designed by trained AI and by dental technicians.

Methods:

First, investigators will collect 200 maxillary dentate teeth models as training models. AI will learn the relationship between individual teeth and rest of the dentition using the 3D Generative Adversarial Network (GAN) by following deep-learning methods/algorithms:

Group 1) Voxel-based; Group 2) View-based; Group 3) Point-based; and Group 4) Fusion methods. Investigators will collect another 100 maxillary models that serve as validation models. Investigators will remove a tooth (act as control) in each model. Then investigators will evaluate these deep learning algorithms in predicting the occlusal morphology and 3D position of single-missing tooth.

Second, investigators will evaluate the need of antagonist model in predicting the occlusal morphology and 3D position of single-missing tooth in 100 validation models:

Group i) maxillary model only and Group ii) with antagonist model using the tested deep-learning algorithm in objective (1).

Third, investigators will analyze the geometric morphometric and 3D position of dental prostheses designed by:

Group a) the trained AI system; Group b) dental technicians on the physical models; and Group c) dental technicians using CAD software. Investigators will compare these teeth to the corresponding natural teeth (control) in 100 validation models.

Furthermore, investigators will analyze the time required for tooth design in these groups as secondary outcome.

Basic Information
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Recruitment & Eligibility
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Study & Design
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Trial Locations

Study Timeline

• Study Start: 2021-09-01
• Study First Submitted: 2021-09-09
• Study First Submitted QC: 2021-09-22
• Study First Posted: 2021-09-27
• Primary Completion: 2024-09-01
• Status Verified: 2024-12
• Last Update Submitted: 2024-12-03
• Last Update Posted: 2024-12-06
• Study Completion: 2025-05

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 250

Inclusion Criteria

• Subjects with sufficient dentition present for the determination of the upper occlusal plane
• Subjects with more than 12 occluding pairs and stable intercuspal position
• Subjects with teeth restorations that did not grossly alter its morphology
• Subjects who did not undergo orthodontic treatment and/or did not have teeth that rotated more than 45 degrees and/or displaced more than 1.5 mm
• Subjects who are of Cantonese descent.

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Exclusion Criteria

• Subjects with periodontal disease whereby there is pathological tooth migration and alteration of occlusal plane.
• Subjects who are under the age of 18 and unable to give consent.
• Subjects with extensive teeth restorations that affect the morphology.

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Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Arm && Interventions

Group	Intervention	Description
Test	artificial intelligence (AI) computer assisted design (CAD)	3D maxillary teeth model from subjects who fulfill inclusion/exclusion criteria. The right first molar (FDI number 16) will be removed in the computer and then designed by artificial intelligence (AI) system AI system will be trained by 1. different algorithms such as Group 1) Voxel-based; Group 2) View-based; Group 3) Point-based; and Group 4) Fusion methods 2. Group i) maxillary model only and Group ii) with antagonist model

Primary Outcome Measures

Name	Time	Method
3D position of tooth	Outcome will be measured after the whole training, which AI was trained of 100% of all models, up to 24 months	The center of a tooth automatically determined by computer
Time spent in laboratory design and in clinical deliver of denture prostheses	Outcome will be measured after the whole training, which AI was trained of 100% of all models, upto 24 months	Time (in minutes) spend in a) design and b) deliver of dental prostheses
Occlusal morphology of tooth	Outcome will be measured after the whole training, which AI was trained of 100% of all models, upto 24 months	The cusps (highest point) and the fossa (lowest point) of the occlusal surface

Trial Locations

Locations (1)

Prince Philip Dental Hospital; 🇭🇰 Sai Ying Pun, Hong Kong