Vision-Guided Robotics for Neurosurgical Simulation
High-fidelity, image-guided platforms accelerating pre-clinical research
The Solution
Simulation Platform
System Highlights
Realtime 3D tracking
Tissuemimicking haptics
Modular endeffectors
DICOM\/MRI\/CT import
Preclinical Automation
Automation Suite
Automated positioning
Imageguided targeting
GLPready data capture
Custom protocol scripting
How it works
01
Step 1 — Import & Plan
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Import MRI\/CT (DICOM), segment targets, define safe trajectories, and simulate approach.
02
Step 2 — Calibrate & Track
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Calibrate cameras and tools, register patient\/phantom, and enable real-time 3D instrument tracking.
03
Step 3 — Execute & Analyze
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Closed-loop robotic execution with logged trajectories, metrics, and objective performance analytics.
The Problem
Inconsistent training & limited access
Scarce cadaver time; few objective metrics
Programs struggle to provide standardized, measurable skill development with safe repetition.
Manual, low-throughput workflows
Variance and reproducibility issues
Manual positioning and targeting introduce variability and limit study throughput.
Fragmented imaging integration
Disconnected planning & execution
Data lives in silos across planning, navigation and robotics, complicating validation and reporting.
Current Development Stage
Alpha prototypes deployed with partner labs; bench validation completed on core modules; expanding to multi-site pilots; not intended for clinical use.
We welcome collaborations in neurosurgical simulation and pre-clinical automation programs.
