SubsidieMeestersAdvanced Magnetic Probes for Minimally Invasive Endovascular Surgery
The APOLLO project aims to revolutionize minimally invasive surgery by developing a flexible magnetic probe for precise cardiovascular interventions using advanced sensors and biocompatible materials.
Projectdetails
Introduction
Endovascular interventions in minimally invasive surgery (MIS) are vital for treating cardiovascular diseases through small incisions. However, current manual and tendon-driven instruments lack precision.
Innovative Solution
Magnetic actuation offers a groundbreaking solution, providing exceptional dexterity. The APOLLO project aims to develop a flexible probe capable of generating internal magnetic fields, revolutionizing MIS with advanced diagnosis and treatment options.
Technical Features
Integrated sensors and biocompatible materials ensure precise control, meeting clinicians' needs in challenging anatomical regions.
Commercial Strategy
APOLLO's pursuit of commercial success involves:
- Strategic partnerships
- Dedicated business development efforts
Conclusion
In essence, APOLLO signifies a significant advancement in minimally invasive surgery, offering unparalleled precision and accessibility in treatment.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 150.000 |
| Totale projectbegroting | € 150.000 |
Tijdlijn
| Startdatum | 1-9-2024 |
| Einddatum | 28-2-2026 |
| Subsidiejaar | 2024 |
Partners & Locaties
Projectpartners
- UNIVERSITEIT TWENTEpenvoerder
Land(en)
Vergelijkbare projecten binnen European Research Council
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
SaorTrack: Wireless Position Tracking in the ORThis project aims to develop a wireless magnetic tracking system to enhance accuracy in electrophysiology mapping and enable precise localization in capsule endoscopy, improving clinical workflows and diagnostics. | ERC Proof of... | € 150.000 | 2024 | Details |
MagMech: Precision magnetic tweezers for the mechanobiology of cells and tissues.The MagMech PoC project aims to enhance a novel magnetic tweezer system for applying and measuring forces in cells and tissues, facilitating advancements in mechanobiology and commercialization. | ERC Proof of... | € 150.000 | 2022 | Details |
MYokinetic Towards InnovationMYTI aims to enhance the clinical translation of a myokinetic interface for prosthetic control by addressing usability challenges and preparing for commercialization through innovative solutions and market research. | ERC Proof of... | € 150.000 | 2024 | Details |
EARTHWORM: pEristAlsis in Real-Time Human mri to study the interWOven fRequency & Microstructural propertiesEARTHWORM aims to revolutionize MRI techniques to study peristaltic motion and microstructure in the human body, enhancing diagnosis and modeling of related diseases. | ERC Starting... | € 1.494.536 | 2024 | Details |
Bidirectional remote deep brain control with magnetic anisotropic nanomaterialsBRAINMASTER aims to develop a scalable, wireless neuromodulation system using magnetic nanodiscs for deep brain therapy and imaging, enhancing cognitive training and treatment for neurological disorders. | ERC Starting... | € 1.500.000 | 2024 | Details |
SaorTrack: Wireless Position Tracking in the OR
This project aims to develop a wireless magnetic tracking system to enhance accuracy in electrophysiology mapping and enable precise localization in capsule endoscopy, improving clinical workflows and diagnostics.
MagMech: Precision magnetic tweezers for the mechanobiology of cells and tissues.
The MagMech PoC project aims to enhance a novel magnetic tweezer system for applying and measuring forces in cells and tissues, facilitating advancements in mechanobiology and commercialization.
MYokinetic Towards Innovation
MYTI aims to enhance the clinical translation of a myokinetic interface for prosthetic control by addressing usability challenges and preparing for commercialization through innovative solutions and market research.
EARTHWORM: pEristAlsis in Real-Time Human mri to study the interWOven fRequency & Microstructural properties
EARTHWORM aims to revolutionize MRI techniques to study peristaltic motion and microstructure in the human body, enhancing diagnosis and modeling of related diseases.
Bidirectional remote deep brain control with magnetic anisotropic nanomaterials
BRAINMASTER aims to develop a scalable, wireless neuromodulation system using magnetic nanodiscs for deep brain therapy and imaging, enhancing cognitive training and treatment for neurological disorders.
Vergelijkbare projecten uit andere regelingen
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
ONDERZOEK NAAR HBH VAN VOERDRAAD EN MAGNETIC ACUATOR VOOR ROBOTARM VOOR PLAATSING STENTSAan ontwikkelt een robotarm met magnetische technologie voor nauwkeuriger en efficiënter plaatsen van stents, waardoor chirurgische procedures sneller en eenvoudiger worden. | Mkb-innovati... | € 20.000 | 2022 | Details |
Smart Implant for Magnetic Anastomotic Healing and Leakage EvaluationThe SMARTHEAL project aims to develop a smart magnetic anastomosis implant with integrated micro-sensors for enhanced healing and early detection of leaks, improving surgical outcomes and reducing costs. | EIC Transition | € 2.499.815 | 2025 | Details |
MULTIMODE NONLINEAR FIBER BASED ENDOSCOPIC IMAGING AND TREATMENTMULTISCOPE aims to revolutionize optical diagnostics and therapy by developing a dual-function endoscopic device for real-time optical biopsy and cold atmospheric plasma treatment in gastrointestinal care. | EIC Pathfinder | € 2.863.733 | 2024 | Details |
Novel microsensing platform for remote patient monitoringThe FORESEE project aims to advance implantable microstimulators for remote monitoring of chronic heart failure, enhancing patient care and market access for 10.5 million potential users. | EIC Transition | € 2.499.051 | 2023 | Details |
MagnetoElectric and Ultrasonic Technology for Advanced BRAIN modulationMETA-BRAIN aims to develop non-invasive, precise control of brain activity using magnetoelectric nanoarchitectures and ultrasonic technologies, enhancing treatment for neurological disorders. | EIC Pathfinder | € 2.987.655 | 2024 | Details |
ONDERZOEK NAAR HBH VAN VOERDRAAD EN MAGNETIC ACUATOR VOOR ROBOTARM VOOR PLAATSING STENTS
Aan ontwikkelt een robotarm met magnetische technologie voor nauwkeuriger en efficiënter plaatsen van stents, waardoor chirurgische procedures sneller en eenvoudiger worden.
Smart Implant for Magnetic Anastomotic Healing and Leakage Evaluation
The SMARTHEAL project aims to develop a smart magnetic anastomosis implant with integrated micro-sensors for enhanced healing and early detection of leaks, improving surgical outcomes and reducing costs.
MULTIMODE NONLINEAR FIBER BASED ENDOSCOPIC IMAGING AND TREATMENT
MULTISCOPE aims to revolutionize optical diagnostics and therapy by developing a dual-function endoscopic device for real-time optical biopsy and cold atmospheric plasma treatment in gastrointestinal care.
Novel microsensing platform for remote patient monitoring
The FORESEE project aims to advance implantable microstimulators for remote monitoring of chronic heart failure, enhancing patient care and market access for 10.5 million potential users.
MagnetoElectric and Ultrasonic Technology for Advanced BRAIN modulation
META-BRAIN aims to develop non-invasive, precise control of brain activity using magnetoelectric nanoarchitectures and ultrasonic technologies, enhancing treatment for neurological disorders.