Features of Maestro Dental Studio Software
Orthodontic System

• 3D Measurement and Modeling Tools: Maestro 3D offers extensive tools for freeform modeling, 3D model repair, measurement tools, bracket removal, and 3D comparison tools—ideal for assessing orthodontic treatment progress.
• Study Models: Maestro 3D allows the creation of virtual bases (ABO, ABO-2013, Ricketts, Parallel, Tweed) and their integration into scanned models. It also supports occlusal inspection analysis, 2D/3D slicing, and measurements on teeth and full arches.
• Automatic Tooth Segmentation (Zero Click!): The software uses AI for automatic segmentation, identifying teeth, margins, and numbering with zero manual input—saving time and turning tedious tasks into a simple, enjoyable process.
• Real Roots from CBCT Integration: Automatically calculates each tooth’s axis, center of rotation, tip, torque, and FA point. Users can adjust these values, making movements highly predictable. Real roots can be merged with scanned crowns for a highly detailed and accurate 3D model—especially useful in sequential stages.
• Mandible/Maxilla CBCT and 3D Face Scans: Maestro 3D allows importing of the mandible and maxilla from CBCT devices and also supports full 3D facial scans.
• Virtual Pontic: A pontic can be added as a virtual prosthetic to replace a missing tooth. Users can select from a library or mirror an existing tooth, scale or auto-fit the pontic to avoid intersections and fit perfectly between adjacent teeth.
• Bracket Placement: Automatic bracket placement with various techniques (Step, Roth, Wick Alexander, Dwight Damon, MBT, Andrews). Combined with aligner features, users can generate different types of transfer trays. Supports custom bracket libraries and automatically calculates tip and torque.
• Virtual Articulator: Enables dynamic evaluation of contact points during occlusal design. Users can adjust condyle angle, Bennett angle, and immediate side shift like a physical articulator.
• Virtual Setup: Simulates orthodontic treatment by moving each tooth to its ideal position. Allows assessment of treatment plans and predicts needs like IPR or extractions. Can be used to design indirect bonding trays and thermoplastic aligners.
• Attachments: Comes with a large library of attachment files. Users can insert, reshape, resize, or reposition attachments—positive or negative—with full control over the workflow.
• Etching Guides for Attachments: Allows for the creation of etching guides to accurately place attachments, exportable for 3D printing with appropriate resins.
• Tooth Extraction: Supports simulation of tooth extraction by automatically reconstructing gingiva to allow space for tooth movement.
• Model Builder: Generates a series of 3D models for the entire orthodontic treatment. Outputs in STL/PLY/OBJ format, optimized for 3D printing. Users define transitions, maximum translations, and rotations.
• Trimming and Base Closure: Removes excess parts for material saving and faster printing. Models can be left open or closed and hollowed for printing efficiency.
• Printable Clear Aligners: Design and generate virtual clear aligners. Supports shape adjustments, variable thickness, and thermoforming simulation. Export templates for 3D printing.
• Treatment Report: Automatically generates PDF reports containing full treatment details, including movement overviews, attachment/bracket positions, 3D models, etc. Also creates a customizable video presentation.
• Bite Splint: Designs and produces single-jaw and multi-jaw occlusal splints with a fast, intuitive workflow. The powerful software engine calculates splint design in seconds.