Advanced extended reality (XR) platform
Overview
Elucis is an advanced extended reality (XR) platform that transforms how medical professionals visualise, plan, collaborate and execute complex surgical cases. Built for immersive 3D pre-operative planning, Elucis allows clinicians to import unlimited CT and MRI image scans.
Elucis supports procedural planning, clearer team communication, and more engaging patient consultations with advanced image segmentation, 3D and 4D modeling capabilities, optimizing surgical workflows and enhancing anatomical clarity.
Key Features
- Import unlimited DICOM files
- Advanced image segmentation and 4D workflows
- Convert imaging data into detailed interactive 3D models
- Real-time image registration, measurements, and editing
- Device import and virtual fitting
- Multi-user collaborative VR sessions
- Media capture for documentation and case review
Workflow
Upload patient CT or MRI
imaging data into the software
Upload patient CT or MRI
imaging data into the software
Convert imaging data
into detailed 3D anatomical models
Convert imaging data
into detailed 3D anatomical models
Perform segmentation
and virtual exploration of anatomical structures
Perform segmentation
and virtual exploration of anatomical structures
Review and refine
surgical plans in real time
Review and refine
surgical plans in real time
Utilise finalised plans
to guide precise clinical procedures
Utilise finalised plans
to guide precise clinical procedures
Elucis Next
- Full VR-based surgical case planning platform
- Imports DICOM data (CT, MRI, CBCT, 3D/4D Echo)
- Advanced image segmentation with 3D and 4D modeling
- Image registration, measurements, editing, and media capture
- Hosts multi-user collaborative VR sessions
- Requires Windows PC with VR-ready GPU and headset
- Ideal for 3D labs and surgical/imaging teams
Elucis Go
- Standalone VR visualization and collaboration platform
- View and interact with pre-generated static 3D models
- Join live collaborative sessions with Elucis Next or Go users
- Intuitive interface with mixed-reality features
- Runs on standalone VR headset (no PC required for use)
- Cost-effective access for clinicians and educators
- Suitable for discussions, education, and patient engagement
Applications
Standalone VR visualization & collaboration
Orthopedic reconstruction
Neurosurgery
Maxillofacial surgery
Implant positioning & device fitting
Interdisciplinary case review
Medical education & simulation
Benefits
Improved accuracy in surgical planning and decision-making
Immersive 3D visualization for superior anatomical understanding
Enhanced collaboration across surgical teams
Streamlined workflow with reduced planning time
Better patient education using interactive 3D models