Wirelessly, securely and quickly transfer DICOM files globally with 3DICOM for DICOM Transfer

Disclaimer: 3Dicom R&D is NOT a Medical Device and is intended for research, scientific & educational purposes only.

Enhance your education with real 3D anatomical models volume-rendered from patient CT, MRI and PET scans

3Dicom R&D provides medical students with the opportunity to practically experience and analyse real human anatomy using optimised 3D and colour rendering features.

With open source radiological scans readily available from databases such as The Cancer Imaging Archive, watch how in a matter of seconds, 2D radiological images transform into immersive 3D models.

Students can then manipulate these 3D models using a variety of tools within the software. For example, in addition to be being able to zoom in on, pan and rotate parts of the anatomy, the Hounsfield Unit Window feature allows students to change the density slider and interact with the skin, tissue and bone of the patient.

3Dicom R&D also provides students the opportunity to enhance their spatial awareness of pathology by being able to easily identify internal anatomy and structural abnormalities using the 3D intersect tool.

Annotate and measure key areas of interest and share findings amongst your peers or use them in your next research publication

Go beyond conventional medical studies and gain access to features which allow you to directly measure distances, circumferences and surface areas on any part of a 2D medical scan. Additionally, 3Dicom R&D allows users to measure angles and even annotate and label anatomical features.

View and explore these results in 3D and use the in-built capture feature to save images directly to the 3Dicom media gallery for use in your next publication or presentation.

Furthermore, save and share these annotated scans with other students and educators through 3Dicom’s secure Medical File Transfer Protocal (MFTP).

Import patient-specific implants and plan surgical procedures for educational purposes

3Dicom R&D’s Medical Computer Aided Design (MCAD) functionality allows students and educators to import and practice positioning medical devices ‘into’ a patient’s virtual anatomy created from real radiological images.

CAD model simulation plays an essential role in the training of accurate surgical intervention. Here you can attempt different methods of inserting various screws and patient-specific implants to determine the most optimal surgical approach and gain hands on exposure to planning techniques.

Segment and export parts of the anatomy as an STL file for 3D printing

3Dicom R&D’s segmentation tool allows anatomical structures to be segmented using semi-automated techniques such as threshold flood-fill, level tracing and island removal. Additional manual edits are able to be made and provide medical students with a hands-on experience of the segmetation process that medical doctors undergo.

Segmented anatomy can then be exported as an STL, OBJ or PLY file type to be 3D printed for educational purposes.

Conceptual Image for 2D Measurement Tool