Orchestrate Orthodontic Technologies (O3D), a Californian dental digital solutions provider, has received U.S. Food and Drug Administration (FDA) 510(k) clearance for its Orchestrate 3D Treatment Planning Software System, which includes 3D printing and clear aligner fabrication.
“There is no question that 3D printing is rapidly changing the field of orthodontics,” said Todd Ehrler, DDS, MS, founder, Orchestrate Orthodontic Technologies.
“The Orchestrate 3D treatment planning software and 3D printing solutions provide the practitioner with turn-key solutions to in-source aligner therapy and other orthodontic appliances.”
“OUR HOST OF PRODUCTS, SERVICES, AND COMPREHENSIVE TRAINING ALLOW THE PRACTICE TO QUICKLY INTEGRATE ORTHODONTIC-SPECIFIC 3D PRINTING TECHNOLOGY AND SOFTWARE.”
The Orchestrate 3D Treatment Planning Software System
Founded in 2007, O3D is formed from experienced orthodontics adapting new technologies specifically for dentistry. On its journey to develop an advanced “in office” 3D digital orthodontic system, the company partnered with EnvisionTEC, a global 3D printer, and materials manufacture.
In the past five years, O3D tested and researched the 3D scanners, software, and 3D printers to integrate into the Orchestrate 3D Treatment Planning Software System. As such, O3D partnered with Park Dental Research in New York to produce its own dental SLA 3D printer, the Juell O3D-2.
According to O3D, the newly approved software system is also compatible with a range of scanners and additive manufacturing systems. “If your scanner produces an STL file our O3D software will accept it.”
The 510(K)clearance now enables dental professionals in the U.S. to use the Orchestrate 3D Treatment Planning Software System to design and produce their own orthodontic clear aligner appliances.
The software suite is capable of case analysis, setup and staging, and exporting to print for production for clear aligners. Some of the functions include analysis of overjet/overbite, collision detection, occlusion, and spaces.
Following the case analysis, virtual setups are created and subdivided into the clear aligner stages needed. When planning is complete, sub-setups can be prepared for additive manufacturing. Furthermore, the software is open, allowing users to decide how much of the workflow they want to do in-house or from production partners.
Additionally, the treatment planning and simulations can be shared onscreen with patients, the dental practice and lab, via am online web viewer.