OCTiX
Intraoral OCT Scanner
World's first OCT oral scanner that precisely diagnoses the microstructure of teeth and soft tissues
- High-Precision OCT Technology
- Simplifying Prosthesis Fabrication with AI Technology
- Faster Scanning with a Wider and Deeper Area
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정밀도 높은 OCT 기술로
구강스캐너의 패러다임을
바꿉니다.
Revolutionizing Oral Scanning with High-Precision OCT Technology
정밀도 높은 OCT 기술로 구강스캐너의 패러다임을 바꿉니다.
Huvitz's Optical Coherence Tomography (OCT) technology is an optical imaging technique that analyzes internal structures with high precision by irradiating light. By projecting infrared light, which is harmless to the human body, it provides high resolution below 60μm. This allows for high-resolution observation of the microstructure of teeth and soft tissues. The technology enables precise imaging of deep tissues in the teeth and gums, including dental caries (cavities), microcracks, periodontal diseases, and subgingival structures. Currently, the Cone Beam Computed Tomography (CBCT) technology used in dental applications employs X-rays and provides a resolution level of 80μm–400μm. However, CBCT has limitations in observing microstructures such as fine cracks due to its low resolution for soft tissues (e.g., gingiva and pulp). Additionally, repeated imaging poses radiation exposure risks, raising patient safety concerns. Huvitz's OCT technology offers a non-invasive diagnostic experience, free from skin incisions or radiation exposure, ensuring the safest and most comfortable diagnostic process for patients.
Patent : TOMOGRAPHY CONVERGENCE-TYPE ORAL SCANNER
The "Tomography Convergence-Type Oral Scanner" patent describes a technology that simultaneously scans the external surface and internal structure of teeth to generate a comprehensive 3D image. By integrating Optical Coherence Tomography (OCT) scanning with intraoral scanning functions, this technology enables precise and extensive dental diagnostics. The data obtained from both scanning processes are combined through a dichroic mirror, allowing simultaneous observation of the external and internal structures of the teeth. This technology supports real-time 3D analysis, providing fast and accurate diagnostic results immediately after scanning.
[Patent No. 10-2458985, 12011336]
Enhanced Accuracy and Clarity with OCT
The Optical Coherence Tomography (OCT) interferometry imaging function penetrates gingival epithelial tissue without being affected by saliva or blood to accurately capture subgingival margins area. Experience a difference in technology with precise margin data unlike anything you've encountered before.
Simplifying Prosthesis Fabrication with AI Technology
Real-time scan images integrated automatically with margin data detected by AI streamline the process. This integration facilitates the creation of optimal prostheses through a simple verification step, followed by processing with L-CAD software, eliminating complex editing.
Faster Scanning with a Wider and Deeper Area
Designed with a wide 15x18mm Field of View (FOV) and a maximum 22mm Depth of Field (DOF), the scanner enables broader area coverage with a single movement. This ensures a rapid and smooth impression acquisition process.
DIGITAL DENTISTRY Workflow
L-WORKS
Integrated Database
OCTiX
Lilivis SCAN
Enhanced Accuracy and
Clarity 3D Oral Scanner
L-SCAN
Oral Scan Data
Analysis Software
L-CAD
CAD Software for
Prosthetic Design
L-CAM
CAM Software for
Prosthetic Machining
Lilivis MILL
High-precision Milling
Machine for Prosthetics
L-SLICER
3D model
slicing software
L-PRINT
LSA System
3D Printer
DIGITAL DENTISTRY Workflow
L-WORKS
Integrated Database
OCTiX
Lilivis SCAN
Enhanced Accuracy and
Clarity 3D Oral Scanner
L-SCAN
Oral Scan Data
Analysis Software
L-CAD
CAD Software for
Prosthetic Design
L-SLICER
3D model
slicing software
L-CAM
CAM Software for
Prosthetic Machining
L-PRINT
LSA System
3D Printer
Lilivis MILL
High-precision Milling
Machine for Prosthetics
Specifications
* Specification and design are subject to change without notice.
