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Tyndall leads €4m SmartVista project to develop wearable, wireless biosensor technology

Posted on: 04 Mar 2019

Tyndall leads €4m SmartVista project to develop wearable, wireless biosensor technology
Over €4m will be invested to bring a potentially lifesaving smart cardiac monitoring patch ‘SmartVista’ to life. The SmartVista wearable biosensor will deliver a real-time wireless feed of patient heart rhythm, respiration, temperature and oxygen flow.

More than €4 million will be invested in a digital health project to bring a potentially lifesaving smart cardiac monitoring patch ‘SmartVista’ to life.  As lead partner, Tyndall National Institute will work with international partners to develop the wearable biosensor technology for real-time wireless monitoring of remote patients.  The SmartVista wearable biosensor will deliver a seamless feed of patient data, particularly heart rhythm (electrocardiograph), respiration, temperature and oxygen flow.

Speaking at the award of €1 million to Tyndall to lead the SmartVista project, Tyndall CEO Prof. William Scanlon said, “This is game changing technology in the digital health sector. Powered by body heat, the SmartVista patch will enable patients to live normal lives away from hospital or clinical environments, and yet be fully monitored in real time. The societal impact in terms of waiting times, hospital infrastructure and patient comfort and care is very significant. We are delighted to lead the SmartVista project, as our market leading research across wireless, nanotech, sensors and wearables combines to create an innovative solution for digital health.

A key innovation of SmartVista is the ability to integrate nanomaterial-based sensors to monitor the heart, along with thermoelectric energy harvesters to extract energy from the body to power the system and printable battery systems to store this energy. Together these will result in a self-powered device that will autonomously monitor the electrocardiograph, respiratory flow, oxygen flow and temperature of the patient. This information will then be transmitted wirelessly for online health processing. This real-time self-powered monitoring of a patient’s health in this manner is not currently available so the technology that will be developed in SmartVista will be at the forefront of digital health and wearable biosensor technology for wireless monitoring in hospitals and of remote patients, both of which are necessary in this era of an aging population.

Dr Kafil M. Razeeb, Senior Staff Researcher & Team Leader, Tyndall National Institute, with a mock-up of the SmartVista wearable biosensor which will be worn on a patient's chest.

SmartVista project lead, Tyndall’s Dr Kafil M. Razeeb said, “Monitoring vital signs is key for patient health and well being; the SmartVista technology will revolutionise patient care enabling remote, real time monitoring. The latest nano and energy research from partners across the EU will combine at Tyndall National Institute, and this multi million euro investment will be strategically deployed to deliver a new digital health patch application which will have global applicability.

Funding for SmartVista has been provided through the EU Horizon 2018-2020 ICT programme.  Multi disciplinary partners include UCC, CNRS, Novosense, Fraunhofer-EMFT and Analog Devices.

The SmartVista Team

Commercial partners in the project, Sweden’s Novosense R&D Manager Fredrik Sebelius said, “This new technology could have a very significant impact on the next generation of medical sensors, enabling new functionality as well as the sensor design appearance. For Novosense this is a great opportunity to get ahead of the competition and launch a new medical device onto the global health care market following the project”.