HOLOGRAPHIC SURGICAL NAVIGATION
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Today’s imaging tools are limited, relying on 2D imaging while practitioners must operate in a 3D space. This results in increased cognitive and physical loads on clinicians.
The XR90 is the first-in-class AR visualization and navigation system for minimally invasive, needle-based, ultrasound-guided soft tissue and procedures.
Features At A Glance:
Real-Time Adjustment
Soft Tissue and Bone Registration
Live Imaging Integration
Augmented Reality for...
Improved Ergonomics & Workflow Efficiency
Holographically display ultrasounds in a customizable way with heads up display and Ultrasound Flashlight, designed to allow practitioners to lay live ultrasound images over patient anatomy.
Heads-Up Display:
Customize placement, size, angle and orientation of your heads-up display for your unique workspace needs.
Ultrasound Flashlight:
Project live ultrasound images overlaid onto patient anatomy for real-time visualization and planning.
Real-Time Tracking and Accuracy
Integrate your imaging and tools with tracked instrumentation to 3D holographic anatomy and patient’s targeted anatomy during pre-operative planning and intra-operative use.
Holographic Needle Guide:
The holographic needle guide enables in-plane and out-of-plane trajectory planning.
Holographic Light Ray:
Facilitate more seamless visualization of instruments from CT hologram, to ultrasound imaging to patient anatomy.
Improved Visualization of Anatomy
The XR90 allows practitioners to interact with patient-specific, 3D CT-based holographic anatomy for comprehensive visualization of internal anatomy with enhanced spatial and depth perception, giving you the tools to avoid critical structures more seamlessly than 2D display
3D CT-Based Holographic Anatomy:
Additional Features:
Customizable views using voice commands and gestures to display or hide anatomic features.
Real-time, fused anatomic ultrasound projection.
Related Clinical Studies
jvir.org
EARLY CLINICAL FEASIBILITY EVALUATION OF AN AUGMENTED REALITY PLATFORM FOR GUIDANCE AND NAVIGATION DURING PERCUTANEOUS TUMOR ABLASION
jvir.org
EARLY CLINICAL FEASIBILITY EVALUATION OF AN AUGMENTED REALITY PLATFORM FOR GUIDANCE AND NAVIGATION DURING PERCUTANEOUS TUMOR ABLASION
jvir.org
EARLY CLINICAL FEASIBILITY EVALUATION OF AN AUGMENTED REALITY PLATFORM FOR GUIDANCE AND NAVIGATION DURING PERCUTANEOUS TUMOR ABLASION