Summary
Cardiovascular diseases are the single most common cause of death in Europe and worldwide. Minimally invasive catheter-based approaches gain in importance as they extend treatment to patients with high peri-operative risks. Today, catheter-based treatment comes with steep learning curves, poor ergonomics and exposure to damaging radiation. The ARTERY project offers a radiation-free approach based on shared-autonomy robotic catheters, with increased user engagement and easy interaction. Echocardiography, optical and electromagnetic sensing techniques provide a superior view upon the cardiovascular space. Fluidic actuation paired with artificial intelligence form the motors of the next generation of robotic catheters that autonomously find their way towards the target site. The interventionist is fully immersed in the surgical field. Key landmarks automatically highlighted in the holographic display give the impression of being teleported right inside the patient’s anatomy. Variable-autonomy schemes allow the interventionist to take over control at any instant. Artificial intelligence algorithms turn catheter navigation to a simple task as the autonomous catheters maneuver their distal portion to align to where the interventionist points his/her finger. ARTERY showcases this new paradigm on mitral valve repair and left appendage closure, two complex yet critical life-saving interventions. Clinicians and company partners are ready to take over the technology developed in ARTERY and translate it to the clinic right after the project.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101017140 |
| Start date: | 01-01-2021 |
| End date: | 30-09-2024 |
| Total budget - Public funding: | 3 044 437,00 Euro - 3 044 437,00 Euro |
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Original description
Cardiovascular diseases are the single most common cause of death in Europe and worldwide. Minimally invasive catheter-based approaches gain in importance as they extend treatment to patients with high peri-operative risks. Today, catheter-based treatment comes with steep learning curves, poor ergonomics and exposure to damaging radiation. The ARTERY project offers a radiation-free approach based on shared-autonomy robotic catheters, with increased user engagement and easy interaction. Echocardiography, optical and electromagnetic sensing techniques provide a superior view upon the cardiovascular space. Fluidic actuation paired with artificial intelligence form the motors of the next generation of robotic catheters that autonomously find their way towards the target site. The interventionist is fully immersed in the surgical field. Key landmarks automatically highlighted in the holographic display give the impression of being teleported right inside the patient’s anatomy. Variable-autonomy schemes allow the interventionist to take over control at any instant. Artificial intelligence algorithms turn catheter navigation to a simple task as the autonomous catheters maneuver their distal portion to align to where the interventionist points his/her finger. ARTERY showcases this new paradigm on mitral valve repair and left appendage closure, two complex yet critical life-saving interventions. Clinicians and company partners are ready to take over the technology developed in ARTERY and translate it to the clinic right after the project.Status
SIGNEDCall topic
ICT-47-2020Update Date
26-10-2022
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H2020-EU.2.1.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Information and Communication Technologies (ICT)
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Organisations
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| Politecnico di Milano (Coördinator)
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| ARTINESS SRL
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| FBGS INTERNATIONAL
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| FONDAZIONE POLITECNICO DI MILANO
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| KATHOLIEKE UNIVERSITEIT LEUVEN
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| OSPEDALE SAN RAFFAELE SRL
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| SV SWISSVORTEX AG
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| Sant’Anna School of Advanced Studies - Scuola Superiore di Studi Universitari e di Perfezionamento...