Primeprint easily integrates into existing digital workflows in practice and lab, efficiently expanding the range of indications. Thanks to the high level of automation, it helps reduce handling times, allows delegation, and supports a high level of productivity. Furthermore, it seamlessly connects into the entire DS Digital Universe. Learn more about how Primeprint makes specific workflows more efficient in the sections below!
If you're wondering how your practice can meet your patients' splint needs while being more profitable, look no further! The splint workflow enabled by Primescan and Primeprint is efficient, reliable, and helps you deliver outstanding patient care. And the best part: the workflow, from scan to print, can be easily delegated to your office staff.
Take the full arch scan in less than one minute with Primescan and carry out the protrusive bite registration with George Gauge in our Connect SW or CEREC SW.
In the CEREC SW or inLab CAD Software, the splint can be designed based on the data from the intraoral scan. From the model phase on, the design is handled via the inLab Splint app, which has been specifically designed for the creation of splints and impression trays. When the design is completed, the model data is sent to the inLab CAM Software to prepare the 3D printing. Here, several parameters can be adjusted to optimize the print.
Printing from the inLab CAM Software can now begin. As soon as the printer has been prepared with the material unit and Primeprint Box, the printing process can start. After printing, the splint must be washed, dried, and cured in Primeprint PPU to be ready for medical application.
The splint can now be removed from the building platform.
The digital implant workflow, using a surgical guide, provides safe, fast, and convenient treatment for your patient. From data capturing to guided surgery, the seamless workflow provides a high degree of clinical safety. By carrying out prosthetic planning, in addition to implant planning, you can ensure that the implant is properly positioned.
First, relevant data is taken using 3D imaging and digital impression with CEREC Primescan or Omnicam. Based on the digital impression, the crown (or prosthetic) can be designed in the CEREC Software. This prosthetic proposal can be exported to be used in the implant planning software.
The data from both the 3D imaging and the prosthetic design can be imported and matched in the implant planning software. Based on this data, the implant position can be determined to create the surgical guide.
The implant planning data can be imported into the CEREC Software to adjust the initial proposal. When finalized, the data is sent to the inLab CAM Software to start 3D printing with Primeprint. After printing, the surgical guide must be washed and cured in Primeprint PPU.
When the surgical guide has been finalized, the surgery can take place. The implant is positioned securely and easily in a minimally invasive procedure using the surgical guide. Before the final restoration can be placed, the implant must heal.
For the design of the final restoration, an intraoral scan of the scanbody, the adjacent teeth, and scan of the scanbody are taken. Based on this data, the CEREC Software automatically recognizes the three-dimensional position of the implant.
The abutment plus crown or screw-retained crown can now be planned in the CEREC Software in just a few steps.
The final restoration can now be produced with CEREC Primemill or CEREC MC X and placed.
In labs working models are often used to ensure high quality indications. Primeprint enables dental technicians to print working models safely and easily in just a few clicks. With the inLab CAD and CAM Software dental technicians can easily and efficiently design and adjust print objects, which can then be printed and post processed with Primeprint and Primeprint PPU.
A working model is required to deliver the requested restoration for specific indications.
In the inLab CAD Software, the working model can be designed based on the data from the intraoral scan. From the model phase on, the design is handled via the inLab Model app, which has been specifically designed for the creation of working and solid models. When the design is completed, the model data is sent to the inLab CAM Software to prepare the 3D printing. Here, several parameters can be adjusted to optimize the print.
Printing from the inLab CAM Software can now begin. As soon as the printer has been prepared with the material unit and Primeprint Box, the printing process can start. After printing, the working model must be washed, dried, and cured in Primeprint PPU to be ready for medical application.
The working model can be removed from the building platform. Now the dental technician can prepare the requested restoration using the working model.
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