Intraoral 3D Scans
Buy and sell intraoral 3d scans data. Digital impressions, crown prep scans, full arch models — 3D dental AI needs thousands of real mouth scans.
No listings currently in the marketplace for Intraoral 3D Scans.
Find Me This Data →Overview
What Is Intraoral 3D Scans?
Intraoral 3D scans are high-resolution digital impressions of teeth and dental anatomy captured using advanced intraoral scanners. These scans generate detailed three-dimensional point cloud representations of the dentition, enabling precise visualization of tooth structure, positioning, and anatomical landmarks. The technology is now widely adopted in modern dentistry for orthodontic treatment planning, restorative procedures, and dental implant design, capturing anatomical detail with resolutions down to 0.1 mm. For AI and machine learning applications, intraoral 3D scans serve as training data for automated dental analysis systems. Developers require large, curated datasets of real mouth scans to build robust algorithms for tooth segmentation, detection, labeling, landmark identification, and anomaly detection. The data typically comes in standard formats (OBJ, point clouds) with validated ground truth labels and metadata, enabling reproducible model evaluation and algorithm development across multiple dental tasks.
Market Data
1,200 scans
Training Scans in Teeth3DS+ Benchmark
Source: arXiv
16,004 teeth
Total Teeth in Training Set
Source: arXiv
600 scans (7,995 teeth)
Test Set Scans
Source: arXiv
US $960.8 million by 2026
CBCT Market Projection
Source: ScienceDirect
Who Uses This Data
What AI models do with it.do with it.
Orthodontic Treatment Planning
Automated analysis of 3D scans enables comprehensive orthodontic assessment, allowing clinicians to evaluate multiple treatment strategies and generate accurate virtual models for precise treatment planning.
Dental Implant Design
High-resolution intraoral scans with detailed anatomical landmarks support sophisticated digital workflows for implant positioning, bone assessment, and prosthetic design.
Computer-Aided Diagnosis Systems
AI models trained on annotated 3D scan datasets enable automated tooth segmentation, detection of dental anomalies, landmark localization, and computer-aided diagnosis for treatment planning.
Restorative Dentistry
Detailed 3D dental models extracted from intraoral scans support crown preparation assessment, full arch modeling, and restorative treatment planning with reduced manual adjustment requirements.
What Can You Earn?
What it's worth.worth.
Individual Scans
Varies
Pricing depends on scan quality, completeness (single tooth vs. full arch), annotation depth, and buyer volume requirements.
Bulk Datasets (100+ scans)
Varies
Large curated datasets with validated ground truth labels and standardized metadata command premium pricing based on dataset size and validation rigor.
Specialized Subsets
Varies
Scans with specific dental conditions, anomalies, or challenging cases may attract higher rates from researchers focused on edge-case model improvement.
What Buyers Expect
What makes it valuable.valuable.
High-Resolution Capture
Scans acquired using state-of-the-art intraoral scanners with resolutions reaching 0.1 mm to ensure detailed visualization of complex dental anatomy.
Accurate Annotation & Labeling
Ground truth labels for individual teeth, tooth landmarks, and anatomical features validated by experienced orthodontists and dental surgeons. Data provided in standardized formats (OBJ, JSON, point clouds).
Complete Metadata
Patient anonymization (UUID), jaw positioning (upper/lower), scan parameters, and standardized evaluation protocols enabling fair comparison of algorithms.
Diverse Dental Configurations
Dataset should cover normal dentition, missing teeth, various dental conditions, and challenging anatomical cases to train robust algorithms that generalize across patient populations.
Companies Active Here
Who's buying.buying.
Developing and benchmarking segmentation, detection, and landmark localization algorithms using standardized public datasets like Teeth3DS+.
Training machine learning models for automated tooth analysis, treatment planning, and computer-aided diagnosis within digital dentistry workflows.
Building AI systems for automated orthodontic assessment, treatment planning, and virtual model analysis from intraoral 3D scans.
FAQ
Common questions.questions.
What file formats are intraoral 3D scans typically provided in?
Intraoral 3D scans are commonly provided in OBJ format (for 3D mesh geometry) with accompanying JSON files containing ground truth labels, tooth instance segmentation, and landmark annotations. Some datasets also include point cloud formats for machine learning applications.
How detailed are the annotations in benchmark datasets?
High-quality benchmark datasets like Teeth3DS+ include individual tooth segmentation, tooth labeling (identifying specific teeth by position), dental landmark localization (cusps, ridges, contact points), and metadata about scanning parameters. Annotations are validated by experienced orthodontists and dental surgeons to ensure accuracy.
What are the main AI/ML applications for this data?
Primary applications include automated tooth segmentation, tooth detection and identification, dental landmark localization, anomaly detection (missing teeth, malpositions), and 3D model reconstruction. These capabilities support computer-aided diagnosis, treatment planning, and orthodontic assessment systems.
How is patient privacy protected in intraoral scan datasets?
Scans are anonymized using universally unique identifiers (UUIDs) rather than patient names or medical record numbers. All personally identifiable information is removed while preserving the anatomical data needed for AI training and research purposes.
Sell yourintraoral 3d scansdata.
If your company generates intraoral 3d scans, AI companies are actively looking for it. We handle pricing, compliance, and buyer matching.
Request Valuation