Abstract
The GCI Vortex Medical Suite comprises two open-source wearable devices—GCI #261 (Stealth-Vortex Vascular Purifier) and GCI #262 (Holographic Ocular Scrubber)—designed for non-invasive, chemical-free treatment of venous thrombosis and vitreous opacities. GCI #261 uses Topological Charge (TC) structured ultrasound (1.75 MHz, P(VDF-TrFE) transducers) to generate helical vortices that disrupt fibrin polymerization via shear stress, governed by an edge LSTM AI for real-time clot detection and autonomous neutralization. GCI #262 employs a 128-channel CMUT array (40 MHz) to produce holographic acoustic tweezers, creating focused vortices that liquefy collagen clumps and guide debris toward natural drainage pathways. Both systems use closed-loop NIR/AE sensing, thermal safety locks (38°C), and patient-specific resonance calibration ("Caldwell Signature") to ensure safety. Powered by WULPUS ultra-low-power logic and NVIDIA Jetson-level AI, the suite enables long-duration operation for spaceflight and rural medicine. Released under CERN-OHL-P, this platform represents a paradigm shift in non-invasive, AI-driven bioacoustic therapy.
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Recommended Citation
Caldwell, Michael Victor Mr., "GCI 261–262: Non-Invasive Acoustic Vortex Platforms for Vascular and Ocular Therapy", Technical Disclosure Commons, ()
https://www.tdcommons.org/dpubs_series/9589