OBJECTIVE: The current standard of care for peripheral chronic total occlusions involves the manual routing of a guidewire under fluoroscopy. Despite significant improvements in recent decades, navigation remains clinically challenging with high rates of procedural failure and iatrogenic injury. To address this challenge, we present a proof-of-concept robotic guidewire system with forward-viewing ultrasound imaging to allow visualization and maneuverability through complex vasculature. METHODS: A 0.035" guidewire-specific ultrasound transducer with matching layer and acoustic backing was designed, fabricated, and characterized. The effect of guidewire motion on signal decorrelation was assessed with simulations and experimentally, driving the development of a synthetic aperture beamforming approach to form images as the transducer is steered on the robotic guidewire. System performance was evaluated by imaging wire targets in water. Finally, proof-of-concept was demonstrated by imaging an ex vivo artery. RESULTS: The designed custom transducer was fabricated with a center frequency of 15.7 MHz, 45.4% fractional bandwidth, and 31 dB SNR. In imaging 20 μm wire targets at a depth of 6 mm, the lateral -6 dB target width was 0.25 ± 0.03 mm. The 3D artery reconstruction allowed visualization of vessel wall structure and lumen. CONCLUSION: Initial proof-of-concept for an ultrasound transducer-tipped steerable guidewire including 3D image formation without an additional sensor to determine guidewire position was demonstrated for a sub-mm system with an integrated ultrasound transducer and a robotically-steered guidewire. SIGNIFICANCE: The developed forward-viewing, robotically-steered guidewire may enable navigation through occluded vascular regions that cannot be crossed with current methods.
OBJECTIVE: The current standard of care for peripheral chronic total occlusions involves the manual routing of a guidewire under fluoroscopy. Despite significant improvements in recent decades, navigation remains clinically challenging with high rates of procedural failure and iatrogenic injury. To address this challenge, we present a proof-of-concept robotic guidewire system with forward-viewing ultrasound imaging to allow visualization and maneuverability through complex vasculature. METHODS: A 0.035" guidewire-specific ultrasound transducer with matching layer and acoustic backing was designed, fabricated, and characterized. The effect of guidewire motion on signal decorrelation was assessed with simulations and experimentally, driving the development of a synthetic aperture beamforming approach to form images as the transducer is steered on the robotic guidewire. System performance was evaluated by imaging wire targets in water. Finally, proof-of-concept was demonstrated by imaging an ex vivo artery. RESULTS: The designed custom transducer was fabricated with a center frequency of 15.7 MHz, 45.4% fractional bandwidth, and 31 dB SNR. In imaging 20 μm wire targets at a depth of 6 mm, the lateral -6 dB target width was 0.25 ± 0.03 mm. The 3D artery reconstruction allowed visualization of vessel wall structure and lumen. CONCLUSION: Initial proof-of-concept for an ultrasound transducer-tipped steerable guidewire including 3D image formation without an additional sensor to determine guidewire position was demonstrated for a sub-mm system with an integrated ultrasound transducer and a robotically-steered guidewire. SIGNIFICANCE: The developed forward-viewing, robotically-steered guidewire may enable navigation through occluded vascular regions that cannot be crossed with current methods.
Authors: Roman Nowygrod; Natalia Egorova; Giampaolo Greco; Patrice Anderson; Annetine Gelijns; Alan Moskowitz; James McKinsey; Nicholas Morrissey; K Craig Kent Journal: J Vasc Surg Date: 2006-02 Impact factor: 4.268
Authors: Philippe Pibarot; Erwan Salaun; Abdellaziz Dahou; Eleonora Avenatti; Ezequiel Guzzetti; Mohamed-Salah Annabi; Oumhani Toubal; Mathieu Bernier; Jonathan Beaudoin; Géraldine Ong; Julien Ternacle; Laura Krapf; Vinod H Thourani; Raj Makkar; Susheel K Kodali; Mark Russo; Samir R Kapadia; S Chris Malaisrie; David J Cohen; Jonathon Leipsic; Philipp Blanke; Mathew R Williams; James M McCabe; David L Brown; Vasilis Babaliaros; Scott Goldman; Wilson Y Szeto; Philippe Généreux; Ashish Pershad; Maria C Alu; Ke Xu; Erin Rogers; John G Webb; Craig R Smith; Michael J Mack; Martin B Leon; Rebecca T Hahn Journal: Circulation Date: 2020-04-10 Impact factor: 29.690
Authors: David H Adams; Jeffrey J Popma; Michael J Reardon; Steven J Yakubov; Joseph S Coselli; G Michael Deeb; Thomas G Gleason; Maurice Buchbinder; James Hermiller; Neal S Kleiman; Stan Chetcuti; John Heiser; William Merhi; George Zorn; Peter Tadros; Newell Robinson; George Petrossian; G Chad Hughes; J Kevin Harrison; John Conte; Brijeshwar Maini; Mubashir Mumtaz; Sharla Chenoweth; Jae K Oh Journal: N Engl J Med Date: 2014-03-29 Impact factor: 91.245
Authors: Graham C Collins; Timothy A Brumfiel; Zachary L Bercu; Jaydev P Desai; Brooks D Lindsey Journal: IEEE Trans Ultrason Ferroelectr Freq Control Date: 2022-03-30 Impact factor: 3.267