Reimagining Medical Imaging in Immersive 3D
Immersive Medical Visualization
Transform raw CT & MRI data into interactive 3D volumes with scientific-grade precision.
Clinical-Grade Visualization
High-fidelity rendering designed to support clarity and confident clinical workflows.
Immersive Diagnostics
Transform raw CT & MRI data into interactive 3D volumes with scientific grade precision.
Clinical-Level Accuracy
High-fidelity rendering ensures diagnostic clarity and supports confident decision-making.
A Smarter Way
to See Medical Data
CT and MRI scans contain immense depth, yet most tools still reduce them to flat slices. We set out to change that. Frame Sixty transforms volumetric imaging into an XR spatial application built for education, research, and professional use. By placing data on an immersive 3D canvas, we enable more intuitive exploration than traditional desktop visualization tools allow.
Why Medical Imaging Needed a Paradigm Shift
Traditional CT and MRI tools are limited to 2D views, making complex structures difficult to interpret. Clinicians, educators, and researchers needed an intuitive, immersive way to work directly with volumetric data on an XR headset.
Redefining 3D Medical Imaging
Multi-Axis Slicing
Explore volumetric data using axial, sagittal, and coronal slicing to better understand internal structures from any orientation. This approach allows users to move beyond fixed viewpoints and examine data dynamically in three dimensions.
By combining traditional slice views with spatial context, multi-axis slicing makes it easier to interpret complex relationships within volumetric datasets when working inside an XR environment.
True 3D Volumes
CT and MRI data are rendered as full 3D volumes rather than disconnected 2D slices. This reveals spatial relationships that are difficult to perceive using traditional desktop-based visualization tools.
Viewing data as a continuous volume enables more intuitive exploration, helping users better understand scale, depth, and structure within immersive XR applications.
Layered Data Control
Layered data control allows datasets to be isolated, blended, or combined within a single spatial view. Users can focus on specific structures or explore how multiple layers relate to one another in three-dimensional space.
This flexible approach supports clearer analysis and visualization of complex volumetric data, especially when working with multiple datasets or segmented information.
Interactive Exploration
Volumetric data can be manipulated through intuitive XR interactions such as rotation, scaling, clipping, and real-time inspection. These interactions allow users to explore data naturally within a spatial canvas.
By engaging directly with 3D volumes, users gain a more hands-on way to examine and understand complex datasets compared to traditional mouse-and-keyboard workflows.
Product Walkthrough
Advanced Volumetric Rendering
We utilize an advanced, low-level Metal-based rendering pipeline designed specifically for XR devices. By leveraging single-pass volumetric rendering techniques, the application efficiently renders complex 3D datasets with high visual fidelity while maintaining performance required for real-time, immersive interaction.
DICOM & NIfTI Support
The application supports industry-standard DICOM and NIfTI formats, allowing volumetric CT and MRI datasets to be ingested directly without manual preprocessing. This ensures compatibility with common medical imaging workflows while enabling consistent volumetric visualization across education, research, and professional review use cases.
Multi-Device Support
The application is designed to run across multiple XR and mobile platforms, including Apple Vision Pro, Meta Quest, iOS, and Android. This multi-device support ensures volumetric data can be explored consistently across headsets and mobile devices, enabling flexible deployment for research, education, and professional environments.
Spatial Understanding at Scale
Immersive volumetric visualization reveals depth and structure that flat, slice-based views cannot convey.
XR-Native Interaction
Hands-on controls allow users to rotate, slice, and explore volumetric data naturally in 3D space.
Cross-Platform Accessibility
Consistent volumetric visualization across XR headsets and mobile devices supports flexible workflows.
Related Case Studies
case-studies
Meshy AI for Developers: Reviewing Generative 3D Asset Generation
9 mins readcase-studies
NVIDIA Omniverse for XR Digital Twins: Spatial Streaming to Vision Pro, Quest, and Beyond
case-studies
How to Build Your First App on Android XR: A Complete Developer Guide for 2025
15 mins readResearchAndroid XR Glasses: The Next Generation of Spatial Wearables
Android XR glasses introduce lightweight, AI-powered spatial tools for real-world workflows. This article highlights key features and enterprise uses.
15 mins readResearchEnterprise XR App Development: How Companies Can Leverage the Samsung Galaxy XR
Samsung Galaxy XR for enterprise: mixed reality apps, Android XR, healthcare capabilities, mid-tier pricing, enterprise features.
