The uLab Systems Dental Aligner Kit is an orthodontic treatment system, that con
The uLab Systems Dental Aligner Kit is an orthodontic treatment system, that consists of doctor-prescribed, clear, thin, plastic removable aligners. Patients are seen in a dental office where a dental professional (dentist/orthodontist) scans or takes a physical impression of the teeth, which is then used to fabricate the aligners. The aligners are designed by dental professionals using uLab Systems technology. The aligners are made of aesthetic and medical grade materials. During the orthodontic treatment, each preformed plastic aligner is worn in sequence by the patient as prescribed by the dental practitioner, moving the patient’s teeth gradually to the ideal position.
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation softw
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation software for use by dental professionals. uDesign imports patient 3-D digital scans and allows the user to diagnose the orthodontic treatment needs of the patient and rapidly develop a treatment plan. The output of the treatment plan may be downloaded as files in standard stereolithographic (STL) format for fabrication of dental casts, which may be used to fabricate sequential aligner trays or retainers.
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation softw
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation software for use by dental professionals. uDesign imports patient 3-D digital scans and allows the user to diagnose the orthodontic treatment needs of the patient and rapidly develop a treatment plan. The output of the treatment plan may be downloaded as files in standard stereolithographic (STL) format for fabrication of dental casts, which may be used to fabricate sequential aligner trays or retainers.
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation softw
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation software for use by dental professionals. uDesign imports patient 3-D digital scans and allows the user to diagnose the orthodontic treatment needs of the patient and rapidly develop a treatment plan. The output of the treatment plan may be downloaded as files in standard stereolithographic (STL) format for fabrication of dental casts, which may be used to fabricate sequential aligner trays or retainers.
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation softw
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation software for use by dental professionals. uDesign imports patient 3-D digital scans and allows the user to diagnose the orthodontic treatment needs of the patient and rapidly develop a treatment plan. The output of the treatment plan may be downloaded as files in standard stereolithographic (STL) format for fabrication of dental casts, which may be used to fabricate sequential aligner trays or retainers.
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation softw
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation software for use by dental professionals. uDesign imports patient 3-D digital scans and allows the user to diagnose the orthodontic treatment needs of the patient and rapidly develop a treatment plan. The output of the treatment plan may be downloaded as files in standard stereolithographic (STL) format for fabrication of dental casts, which may be used to fabricate sequential aligner trays or retainers.
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation softw
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation software for use by dental professionals. uDesign imports patient 3-D digital scans and allows the user to diagnose the orthodontic treatment needs of the patient and rapidly develop a treatment plan. The output of the treatment plan may be downloaded as files in standard stereolithographic (STL) format for fabrication of dental casts, which may be used to fabricate sequential aligner trays or retainers
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation softw
The uLab Systems uDesign is orthodontic diagnosis and treatment simulation software for use by dental professionals. uDesign imports patient 3-D digital scans and allows the user to diagnose the orthodontic treatment needs of the patient and rapidly develop a treatment plan. The output of the treatment plan may be downloaded as files in standard stereolithographic (STL) format for fabrication of dental casts, which may be used to fabricate sequential aligner trays or retainers
EXA is a software device that receives digital images and data from various sour
EXA is a software device that receives digital images and data from various sources (i.e. CT scanners, MR scanners, ultrasound systems, R/F Units, computed & direct radiographic devices, secondary capture devices, scanners, imaging gateways or other imaging sources). Images and data can be stored, communicated, processed and displayed within the system and or across computer networks at distributed locations.Lossy compressed mammographic images are not intended for diagnostic review.
Single use stainless steel tube insert to be used for fluoroscopic feedback for
Single use stainless steel tube insert to be used for fluoroscopic feedback for alignment of cutting guides.
A three dimensional physical model depicting patient specific anatomy. To be us
A three dimensional physical model depicting patient specific anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan.
A physical guide that is composed of patient's bony anatomy and allows for preci
A physical guide that is composed of patient's bony anatomy and allows for precise location of predetermined osteotomy planes and holes.
A physical guide that is composed of patient's bony anatomy and allows for preci
A physical guide that is composed of patient's bony anatomy and allows for precise location of predetermined osteotomy planes and holes.
The D2P software is a stand-alone modular software package that provides advance
The D2P software is a stand-alone modular software package that provides advanced visualization of DICOM imaging data. This modular package includes, but is not limited to the following functions:- DICOM viewer and analysis- Automated segmentation- Editing and pre-printing- Seamless integration with 3D Systems printers- Seamless integration with 3D Systems software packages- Seamless integration with Virtual Reality visualization for non-diagnostic use
The D2P software is a stand-alone modular software package that allows easy to u
The D2P software is a stand-alone modular software package that allows easy to use and quick digital 3D model preparation for printing or use by third party applications. The software is aimed at usage by medical staff, technicians, nurses, researchers or lab technicians that wish to create patient specific digital anatomical models for variety of uses such as training, education, and pre-operative surgical planning. The patient specific digital anatomical models may be further used as an input to a 3D printer to create physical models for visual, non-diagnostic use. This modular package includes, but is not limited to the following functions:- DICOM viewer and analysis- Automated segmentation- Editing and pre-printing- Seamless integration with 3D Systems printers- Seamless integration with 3D Systems software packages
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
Image segmentation system for the transfer of imaging information from a medical
Image segmentation system for the transfer of imaging information from a medical scanner such as a CT scanner to an output file. It is also intended as pre-operative software for surgical planning.
A three dimensional physical model depicting patient specific anatomy. To be us
A three dimensional physical model depicting patient specific anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize patient anatomy. Model may also be used to pre-contour off-the-shelf implants.
A three dimensional physical model depicting patient specific anatomy. To be us
A three dimensional physical model depicting patient specific anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize patient anatomy. Model may also be used to pre-contour off-the-shelf implants.
A three dimensional physical model depicting patient specific anatomy. To be us
A three dimensional physical model depicting patient specific anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize patient anatomy. Model may also be used to pre-contour off-the-shelf implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.
A three dimensional physical model depicting patient specific modified anatomy.
A three dimensional physical model depicting patient specific modified anatomy. To be used as pre- and intraoperative reference for the surgeon to visualize the surgical plan. Model may also be used to pre-contour implants.