The client offers a wide range of orthopedic and dentist services including dental care, knee replacement surgery, total hip and shoulder replacement surgery, and spine surgery, as well as a variety of innovative care for a wide range of musculoskeletal conditions. The client has pioneered minimally invasive techniques in orthopedic surgery, as well as treatment for osteoarthritis and sports injuries. The client provides sub-specialty expertise, comprehensive consulting services and advanced technology-enabled services.
The client wanted to transform their enterprise, and they signed up with Gateway Digital for product engineering service. The objective was to create accurate anatomic muscle 3D printable models from medical scan machine in order to transform the health sector.
The client was looking for an application that could convert medical scans (such as X-ray, ultrasound, CT and MRI supported DICOM formats) into 3D editable and printable models. The client wanted a software compatible with CBCT and CT to convert DICOM images into editable 3D CAD models. It was necessary for the realign simulation of teeth to create the correct SMILE through editable 3D CAD models before delivering the treatment to patients.
The platform is a user-friendly 3D model editing DiCOM CBCT images to editable 3D CAD models.
Interface empowers to quickly place single points, curves and patches to represent even the most complex specimen morphology.
This state-of-the-art tool gives the ability to inspect, perform statistical analysis and virtually manipulate, and measure every anatomic feature on laser-scanned surfaces or within micro-CT, CBCT, CT or MRI scans.
Build a 3D CAD model editor and simulation platform for – orthodontia modelling for perfect SMILE simulation.
The platform takes DiCOM CBCT scans as inputs and converts them to radiography models and 3D object renders.
Possibility of orthodontia simulation modelling using predefined templates for perfect smile.
DiCOM to Radiographic conversion
DiCOM to CAD 3D model
Editable 3D models with template based orthodontia alignments