3D Measurement Tools\3D Modeling tools
Maestro 3D offers a wide range of tools that include advanced 3D modeling, 3D model repair, measurement tools, digital removal of brackets from scanned models, and 3D comparison tools for analyzing differences between 3D models.
Model 3D repair is a crucial aspect that Maestro 3D addresses with great care. Often, 3D models from intraoral scanners have numerous defects that, when possible, are automatically corrected during import or through tools provided by the software. This allows you to work even with initially highly flawed scans.
When used by experienced users, these tools can make the difference between a standard job and an excellent, personalized, and artistic one.
Study models are essential for the diagnostic phase and as documentation for treatment planning, especially in complex prosthetic cases. In the field of orthodontics, study models are an integral part of essential diagnostic data.
Maestro 3D allows for the creation of study models with virtual bases (ABO, ABO-2013, Ricketts, Parallel, Tweed), enabling occlusal analysis and measurements using dedicated tools. This allows for the examination of dental arches and their relationships from an extraoral perspective. Direct observation of the interocclusal situation in the three planes of space through the software's provided tools provides crucial information about transverse, vertical, and sagittal discrepancies. Furthermore, it allows for an objective measurement of these issues, contributing to a more precise diagnosis.
Automatic Tooth Segmentation (No Clicks!)
The automatic tooth segmentation of Maestro 3D uses artificial intelligence to identify the arch teeth, accurately outline their margin line, and assign them the correct numbering. In a matter of seconds, it transforms what is usually considered a tedious task into a fast process, a fun and straightforward experience, saving you valuable time and significantly streamlining your workflow. Take advantage of the effective automatic tooth segmentation offered by Maestro 3D!
Combining dental roots acquired through CBCT devices with scanned dental crowns
Maestro 3D automatically calculates the axes of individual teeth, the center of rotation, Tip, Torque, and the FA point. These values are easily adjustable by the user, allowing them to define their own workflow, making movements much more predictable.
Using real roots, when available, is crucial for accurately determining tooth axes and knowing the exact position of the roots. The software enables the combination of scanned crowns with real roots, resulting in a highly accurate and detailed final 3D model, which is particularly useful in subsequent stages. The image shows an example of digitally scanned crowns combined with roots from a CBCT scan. The fusion process is fast, easy, and entirely automatic.
CBCT mandible\maxilla and 3D Face
With Maestro 3D, you can easily import images of the mandible and maxilla acquired through CBCT devices, as well as import the three-dimensional scan of the patient's face and their photos
A virtual pontic is defined as an artificial tooth in a fixed dental prosthesis that replaces a missing natural tooth, restoring its function and aesthetics. It typically occupies the space previously taken by the clinical crown of the missing tooth.
With Maestro 3D, you can add a virtual pontic by choosing a tooth from the library or mirroring an existing element. You can adjust and scale the intermediate element as needed or use the automatic adjustment function to size the tooth, avoiding intersections with other teeth.
During the creation of transition models, the pontic automatically adapts to the mesio-distal teeth to avoid potential intersections.
The Maestro 3D virtual articulator provides the ability to dynamically assess contact points and intersections during the design of any occlusal treatment. Parameters such as condylar angle, Bennett angle, and immediate lateral shift can be adjusted, similar to a physical articulator.
It can be used to dynamically modify occlusion, simulate a bite jump, or during the creation phase of a device like the bite. This feature allows for quick switching between occlusions, making it easy to transition between them at any point in the workflow within the software.
The 3D virtual setup provides an accurate simulation of orthodontic treatment by segmenting individual teeth and positioning them in the desired location. This tool serves an essential diagnostic function, allowing for the confirmation, modification, or rejection of a suggested treatment plan. It can anticipate the need for interventions such as interproximal reduction or tooth extraction to address overcrowding or dental protrusion. Furthermore, the virtual setup can be used as a therapeutic tool to execute orthodontic treatment using indirect bonding masks and thermoplastic aligners.
This tool offers the flexibility to be used both in the laboratory and in the clinic, thanks to its integration with the cloud system. Moreover, with the free viewer, clinicians can make changes to the setup and send them directly to the cloud for integration into the workflow.
Communication between the laboratory and the clinician, along with the integration between the commercial software and the free viewer, are fundamental aspects that Maestro 3D values and promotes as strengths.
The software offers a vast library of attachments, as well as the ability to create new geometries and customize the shape, size, and thickness of existing attachments. Attachments can be positioned positively or negatively.
By placing attachments on specific teeth, you can exert precise control over dental movements during orthodontic treatment. Thanks to Maestro 3D's attachments, it's possible to effectively correct rotations and inclinations of teeth to achieve optimal alignment.
Users have complete freedom to define their own workflow, making dental movements highly predictable and customizable.
Etching guide for improved attachment placement
This feature of the software enables the automatic creation of a printable guide intended for the clinician, facilitating the etching of the dental surface where the attachments will be placed. The generated guides can be easily exported and printed using suitable resins.
Position your clear aligner system in a higher and more professional bracket, setting yourself apart from others and enriching your offering to clinics and the very image that patients will have of your service.
Thanks to this advanced feature, the software allows for virtual tooth extractions, automatically reconstructing gum geometry and creating the necessary space for tooth movement. This feature represents a valuable tool in orthodontic planning, enabling the optimization of tooth positioning for a perfect smile.
In scientific literature, extractions are recommended only in extreme cases, where crowding is compounded by significant skeletal issues and excessive dental inclinations. In these particular situations, not performing extractions could jeopardize dental stability and patient aesthetics.
Construction of Transition Models
The creation of transition models allows for the generation of the necessary set of models for the entire orthodontic treatment, ready to be exported in open formats such as STL/PLY/OBJ and optimized for 3D printing. This procedure is entirely automatic and takes only a few seconds.
During this phase, the user has maximum control over the crucial variables of the process. It is possible to set constraints related to the maximum allowed Euclidean movement for each tooth in every transparent aligner or establish limits on the desired number of models. Furthermore, it is possible to define constraints related to the maximum allowed movement and rotation along the canonical axes for each tooth in each aligner.
These constraints allow for more precise control over the planned movements. Additionally, the user can define and save one or more protocols based on the type of treatment or the patient (for example, an adolescent might require a different protocol from an adult). The use of these protocols is essential to ensure consistency in treatments and maximize the user's capabilities, increasing the predictability of each treatment to the fullest.
Cut and Close
This feature allows you to remove excess material, reducing waste and speeding up the printing process. You can remove material using a plane or a line, and you have the flexibility to leave the bottom part of the model open or closed. Additionally, you can apply an offset to increase the height of the model's lower edge.
This tool allows for the automatic generation of a comprehensive treatment report in PDF format, containing all relevant information. Users can customize the level of detail and choose their preferred color scheme. The report can include an overview of the tooth movement, indications of attachments, brackets, interproximal reduction (IPR), 3D models, customized screenshots, and much more.
This feature serves as a powerful and efficient means of sharing work with the healthcare professional. Furthermore, if the cloud service is utilized, the report can be published online for easy access by the healthcare provider with a simple click from any device.
Additionally, it is possible to automatically generate a customizable video presentation, which represents a practical and swift method for communicating the treatment to patients. This video showcases animated treatment progress and serves as a valuable marketing tool for presenting the treatment plan to patients. For instance, it can be sent via WhatsApp to the patient, who can view it directly on their smartphone.
Design and print your aligners. Thermoforming or direct printing.
Automatically place brackets, choosing from various techniques such as Step, Roth, Wick Alexander, Dwight Damon, MBT, Andrews, and print your personalized guides.
Design and print a wide range of occlusal bite splints, nightguards, occlusal splints, and much more.
Design appliances and customize the framework for output using all types of 3D-driven machines and materials. Bands, supports, expander arms, retainers, and much more.
Design aesthetic mockups and guides for the creation of prostheses for edentulous patients.
Full integration with leading CNC and Laser machine manufacturers for aligner cutting.
Maestro 3D is the best orthodontic software available on the market. With advanced features like bracket placement software, digital studio models, and rapid prototyping for dentistry, it offers an excellent experience to orthodontists.
Thanks to the 3D Scanner for jewelry and our high-quality Dental Scanner, Maestro 3D is also the ideal choice for jewelry and dentistry professionals.
Maestro 3D's orthodontic software is an industry leader and enables precise and efficient digital design of clear aligners. With CAD/CAM orthodontic support and the option for rapid prototyping in orthodontics, the results are always outstanding.
The guide for aligner production is made easy with our software, and dental aligner software solutions make the process smooth and fast. Digital creation of orthodontic appliances is a breeze with 3D modeling for dental aligners.
Direct 3D printing of clear aligners is an outstanding feature, as is the software for orthodontic correction. Advanced technology for aligners ensures high-quality results.
The software also offers precise design of expanders, with automatic aligner cutting further simplifying orthodontists' work. Ortho Studio Software and Dental Studio Software are highly reliable and comprehensive.
Digital bands and expanders, digital bite splints, and digital mouthguards are just some of the available options. AI-based automatic tooth segmentation and AI-based digital orthodontics put the software at the cutting edge.
The orthodontic treatment software is highly customizable and suitable for the specific needs of every professional. With AI-based digital dental aligners and AI software solutions for dental aligners, we are at the forefront of AI technology for orthodontic correction.
AI-based orthodontic planning offers a competitive advantage, and cloud-based dental aligner software allows unprecedented accessibility wherever you are. Cloud solutions for orthodontics and the web viewer for orthodontic cases further enhance the experience.