CBCT Segmentation

Diagnocat AI's automatic segmentation feature transforms CBCT files into a 3D STL model, a pivotal innovation for digital dentistry.

Includes fully automated segmentation and generation of 3D STL models, alongside simultaneous segmentation of various structures like soft tissue, teeth, maxillary sinus, inferior alveolar canal, incisive canal, mandible, maxilla, cranial base, and airways.

Generating 3D models with Diagnocat serves as an initial step for subsequent planning and modeling within specialized software or for 3D printing purposes.

Utilize the STL models for digital treatment planning, clinical case presentations, and engaging patients with effective communication, as visualizing the maxillofacial area significantly improves patient comprehension.

Who can benefit from this service?

Dental specialists

Diagnocat AI generates models of the upper and lower jaws, serving as digital counterparts to the models traditionally handled by doctors. The tool can also extract individual teeth from the model, enabling detailed planning for guided implant surgery.

Surgeons

The segmentation process encompasses all anatomical components, providing their volumes as STL files. Surgeons receive files for both upper and lower jaws, along with individual files for each tooth. This facilitates auto transplantation planning, augmentations, and the design of individual implants or membranes. It is worth noting that the cranial base bones remain undivided, presented as a unified structure within the model.

Orthodontist

Using the precision of AI, Diagnocat will segment teeth without including the surrounding bone, ideal for modeling splints and aligners. With CBCT volumes possessing a sufficient field-of-view (FOV), it enables the segmentation of pharyngeal and laryngeal airways, as well as facial soft tissues.

STL use cases

#Orthodontist Case 1

Orthodontist Case 1

Objective

Implementing a comprehensive treatment plan and effective interaction between the clinician and the patient.

Challenge

When discussing the clinical situation, the orthodontist uses plaster models of the jaws, which are often complicated to understand for the patient.

Solution

As an alternative to traditional jaw models, Diagnocat suggests using 3D segmentation, generated based on cone-beam computed tomography (CBCT). In doing so, the patient can see their own face, teeth and bone. The viewing program increases the transparency of the soft tissue and shows the patient the pathology clearly. A visual 3D model simplifies communication, helps the patient understand the problem, and helps to set the patient up for timely treatment.

#Surgeon Case 1

CBCT Segmentation 2

Objective

To plan the implant placement with the use of a surgical guide.

Challenge

Manual anatomy segmentation, which requires a lot of time and professionalism of the clinician, especially if the quality of CBCT is low. Human factor and inaccurate superimposition of CBCT and IOS, which leads to errors in the creation of the surgical template.

Solution

Diagnocat automates CBCT segmentation, producing detailed 3D STL models. The process precisely segments full maxillofacial anatomy. With an intraoral scan, Diagnocat AI merges CBCT and IOS data for a unified model, widely used in digital dentistry treatment planning. The report is generated in just 5 minutes, saving your precious time.

#Orthodontist Case 2

Orthodontist Case 2

Objective

To reduce the amount of time taken to create a treatment plan for aligners.

Challenge

When planning tooth movements, the orthodontist needs a significant amount of time to evaluate the clinical case and perform calculations to achieve the most functional and accurate final tooth position.

Solution

Diagnocat's reports, based on CBCT and intraoral scans (STL files), help the clinician to quickly and accurately make decisions about treatment tactics and final tooth position, and to plan comprehensive treatment according to the individual needs of the patient.

#Surgeon Case 2

Surgeon Case 2

Objective

Establish communication with the patient and plan the autotransplantation of the third molar into the position of tooth 37 (Universal 18).

Challenge

The patient has doubts about the necessity of tooth extraction.

Solution

The automated process of segmentation and formation of 3D models from DICOM files allows extracting individual structures for subsequent 3D printing. The printed model of the third molar, taken from the "STL" module of Diagnocat, is used to prepare the socket for the transplanted tooth. The 3D reconstruction generated using Diagnocat displays the structure of the jaws and teeth and enables the visualization of tooth 37 (Universal 18) with periapical lesion around the roots. In this case, Diagnocat serves as a communication tool that helps convince the patient of the importance of timely implementation of the proposed treatment plan.

Explore more Diagnocat products

Diagnocat presents a range of solutions tailored to the different needs of your dental practice.

Radiology Report

Diagnocat’s AI analysis of intraoral X-rays, panoramic X-rays (OPGs), and CBCT images produces an accurate, clear, and concise report of over 65 conditions.

Cloud storage and Viewer

All dental images and reports are securely stored in your cloud-based personal account, accessible for viewing, uploading, sharing, or printing from any device.

Collaboration Tool*

Collaboration Tool
Introducing Diagnocat’s Platform for Comprehensive Treatment Plan Management that transforms our AI into your virtual dental clinic assistant.

Specialists Reports*

*The availability of Diagnocat products is limited in various countries. Please contact us to check availability in your country.
specialists report
Diagnocat offers a range of specialist reports including the third molar, orthodontic, implantology, and endodontic reports, easily accessible through the platform.

Superimposition

Superimposition
Our superimposition feature offers dental specialists an enhanced view of their patient's oral cavities by combining the advantages of CBCT and intra-oral imagery.

Registration to the event

How is AI changing treatment planning in dental practice? Implementation of AI in 2D X-ray diagnostics
Upcoming webinar
December 12, 2024 |
5:00 pm
(CET)
How is AI changing treatment planning in dental practice? Implementation of AI in 2D X-ray diagnostics
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