Learning-based endovascular navigation through the use of non-rigid registration for collaborative robotic catheterization | International Journal of Computer Assisted Radiology and Surgery
Electromagnetic Navigation: A Review | Thoracic Key
Catheter Navigation System Combining Graph Algorithms and RL
NAVISTAR Navigation and Ablation Catheters/Thermistor - Biosense Webster - PDF Catalogs | Technical Documentation
Catheter navigation by intracardiac echocardiography enables zero-fluoroscopy linear lesion formation and bidirectional cavotricuspid isthmus block in patients with typical atrial flutter | Cardiovascular Ultrasound | Full Text
Biologically Inspired Catheter for Endovascular Sensing and Navigation | Scientific Reports
Catheter Navigation: The Fastest Growing Sector of Robotic Surgery | IDTechEx Research Article
Electromagnetic Navigation: A Review | Thoracic Key
Electroanatomical Navigation to Minimize Contrast Medium or X-Rays During Stenting: Insights From an Experimental Model | JACC: Basic to Translational Science
Cardiac Ablation Catheters – INTELLANAV for RHYTHMIA HDx - Boston Scientific
THERMOCOOL SMARTTOUCH® SF Catheter | Biosense Webster | J&J MedTech
A Platform for Robot-Assisted Intracardiac Catheter Navigation | Semantic Scholar
Electromagnetic tracking of flexible robotic catheters enables “assisted navigation” and brings automation to endovascular navigation in an in vitro study - ScienceDirect
New system for tracking catheters using optics promises easier navigation
Catheter navigation with the virtual phantom | Download Scientific Diagram
Learning-based endovascular navigation through the use of non-rigid registration for collaborative robotic catheterization | International Journal of Computer Assisted Radiology and Surgery
SCVS - Electromagnetic tracking of flexible roboticcatheter enables “assisted navigation” and brings automation to endovascularnavigation in an ex-vivo study
NiobeV R ES magnetic navigation system. | Download Scientific Diagram