Summary
Medis medical imaging systems BV (MEDIS), with 25 years of experience in medical imaging, will introduce a novel imaging-based biomarker as an accurate proxy for functional stenosis severity, creating a breakthrough in the treatment of ischemic heart disease (IHD). This non-invasive imaging algorithm should replace the current standard of using a vascular pressure wire to measure the Fractional Flow Reserve (FFR) - a measure for the physiologic significance of a coronary obstruction on the basis of which the interventional cardiologist decides whether an obstruction needs to be treated with stent placement, or otherwise should be left untreated.
Using pressure-wire FFR is risky, time consuming, costly, associated with additional X-ray radiation, not always accurate and not applicable in highly curved arteries. MEDIS has developed a functional prototype of its imaging algorithm (FFRQCA) that accurately calculates the FFR from readily available 2D X-ray images through 3D reconstruction, advanced image processing algorithms and computational fluid dynamics. In a direct comparison with the current standard, this novel approach showed excellent diagnostic accuracy of 88%. Efforts to further optimise the technology are currently ongoing: a multi-centre investigator-driven trial is being carried out across 2 European countries, the US and China.
In this Stage 1 SME Instrument project, MEDIS will investigate the commercial feasibility of this innovation that has already sparked enthusiasm amongst interventional cardiologists worldwide.
Using pressure-wire FFR is risky, time consuming, costly, associated with additional X-ray radiation, not always accurate and not applicable in highly curved arteries. MEDIS has developed a functional prototype of its imaging algorithm (FFRQCA) that accurately calculates the FFR from readily available 2D X-ray images through 3D reconstruction, advanced image processing algorithms and computational fluid dynamics. In a direct comparison with the current standard, this novel approach showed excellent diagnostic accuracy of 88%. Efforts to further optimise the technology are currently ongoing: a multi-centre investigator-driven trial is being carried out across 2 European countries, the US and China.
In this Stage 1 SME Instrument project, MEDIS will investigate the commercial feasibility of this innovation that has already sparked enthusiasm amongst interventional cardiologists worldwide.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/664018 |
| Start date: | 01-01-2015 |
| End date: | 31-05-2015 |
| Total budget - Public funding: | 71 429,00 Euro - 50 000,00 Euro |
Cordis data
Original description
Medis medical imaging systems BV (MEDIS), with 25 years of experience in medical imaging, will introduce a novel imaging-based biomarker as an accurate proxy for functional stenosis severity, creating a breakthrough in the treatment of ischemic heart disease (IHD). This non-invasive imaging algorithm should replace the current standard of using a vascular pressure wire to measure the Fractional Flow Reserve (FFR) - a measure for the physiologic significance of a coronary obstruction on the basis of which the interventional cardiologist decides whether an obstruction needs to be treated with stent placement, or otherwise should be left untreated.Using pressure-wire FFR is risky, time consuming, costly, associated with additional X-ray radiation, not always accurate and not applicable in highly curved arteries. MEDIS has developed a functional prototype of its imaging algorithm (FFRQCA) that accurately calculates the FFR from readily available 2D X-ray images through 3D reconstruction, advanced image processing algorithms and computational fluid dynamics. In a direct comparison with the current standard, this novel approach showed excellent diagnostic accuracy of 88%. Efforts to further optimise the technology are currently ongoing: a multi-centre investigator-driven trial is being carried out across 2 European countries, the US and China.
In this Stage 1 SME Instrument project, MEDIS will investigate the commercial feasibility of this innovation that has already sparked enthusiasm amongst interventional cardiologists worldwide.
Status
CLOSEDCall topic
PHC-12-2014-1Update Date
26-10-2022
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