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Enhanced Delivery Ecosystem for Neurosurgery in 2020

Descripción del proyecto

Innovador sistema para el tratamiento de enfermedades cerebrales

El proyecto EDEN2020, financiado por la UE, pretende desarrollar un nuevo sistema para el diagnóstico unificado y el tratamiento mínimamente invasivo en neurocirugía. El consorcio empleará la exclusiva experiencia de instituciones de investigación y socios industriales líderes en robótica quirúrgica para lograr un impacto clínico real. El objetivo es diseñar y desarrollar una familia de catéteres dirigibles para el tratamiento de enfermedades in situ mediante administración robótica y durante periodos prolongados. El sistema será capaz de detectar la cambiante anatomía cerebral intraoperatoria con una precisión inigualable y de desplegar herramientas ópticas de diagnóstico para el tratamiento de enfermedades cerebrales. El EDEN2020 contribuirá al amplio reto de mejorar las terapias de los pacientes con cáncer haciendo posible el tratamiento dentro de las estructuras tisulares con una precisión de administración sin precedentes.

Objetivo

Due to an aging population and the spiralling cost of brain disease in Europe and beyond, EDEN2020 aims to develop the gold standard for one-stop diagnosis and minimally invasive treatment in neurosurgery. Supported by a clear business case, it will exploit the unique track record of leading research institutions and key industrial players in the field of surgical robotics to overcome the current technological barriers that stand in the way of real clinical impact.
EDEN2020 will provide a step change in the modelling, planning and delivery of diagnostic sensors and therapies to the brain via flexible surgical access, with an initial focus on cancer therapy. It will engineer a family of steerable catheters for chronic disease management that can be robotically deployed and kept in situ for extended periods. The system will feature enhanced autonomy, surgeon cooperation, targeting proficiency and fault tolerance with a suite of technologies that are commensurate to the unique challenges of neurosurgery. Amongst these, the system will be able to sense and perceive intraoperative, continuously deforming, brain anatomy at unmatched accuracy, precision and update rates, and deploy a range of diagnostic optical sensors with the potential to revolutionise today’s approach to brain disease management. By modelling and predicting drug diffusion within the brain with unprecedented fidelity, EDEN2020 will contribute to the wider clinical challenge of extending and enhancing the quality of life of cancer patients – with the ability to plan therapies around delicate tissue structures and with unparalleled delivery accuracy.
EDEN2020 is strengthened by a significant industrial presence, which is embedded within the entire R&D process to enforce best practices and maximise translation and the exploitation of project outputs. As it aspires to impact the state of the art and consolidate the position of European industrial robotics, it will directly support the Europe 2020 Strategy.

Régimen de financiación

RIA - Research and Innovation action

Coordinador

IMPERIAL COLLEGE OF SCIENCE TECHNOLOGY AND MEDICINE
Aportación neta de la UEn
€ 2 929 867,26
Dirección
SOUTH KENSINGTON CAMPUS EXHIBITION ROAD
SW7 2AZ LONDON
Reino Unido

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Región
London Inner London — West Camden and City of London
Tipo de actividad
Higher or Secondary Education Establishments
Enlaces
Coste total
€ 2 929 867,26

Participantes (11)