Summary
Protein molecule sensing techniques are currently hampered by detection limits and require large samples to achieve acceptable levels of sensitivity, bias, throughput, cost, and time to result. Leveraging findings from our NanoProt-ID (ADG ERC), in SM-ProTrack we will develop a novel single-molecule sensing method with unprecedented levels of detail and accuracy. This technology is based on the separation of molecules using silicon nano-channels on a chip, tracking of single molecules, and high-precision identification using AI algorithms. Thus, the technology allows detection of multiplexed, full-length single proteins, from extremely small sample volumes, in a low-cost, portable device.
Here, to advance the clinical relevancy of the technology and build specific commercial value, we will apply it towards Age-related Macular Degeneration (AMD) sensing based on liquid biopsy. AMD represents 90% of cases of legal blindness globally, affecting ~200 million people’s life quality. To date, a quantitative sensing of AMD biomarkers, has not been possible due to the extremely small volumes of the clinical eye-derived aqueous humour (AH) sample and low abundance of the AMD biomarkers. In collaboration with a leading AMD ophthalmologist, SM-ProTrack will advance the technology to proof-of-principle validation, hence building a solid commercialization case while addressing an unmet global need.
SM-ProTrack will pave the way for a low-cost, highly sensitive technology for single protein molecule sensing, that can provide rapid and accurate results from dilute and small clinical sample volumes with minimal biases. Validated in the field of AMD biomarkers, our technology can be further applied in many other liquid biopsy diagnostics fields.
Here, to advance the clinical relevancy of the technology and build specific commercial value, we will apply it towards Age-related Macular Degeneration (AMD) sensing based on liquid biopsy. AMD represents 90% of cases of legal blindness globally, affecting ~200 million people’s life quality. To date, a quantitative sensing of AMD biomarkers, has not been possible due to the extremely small volumes of the clinical eye-derived aqueous humour (AH) sample and low abundance of the AMD biomarkers. In collaboration with a leading AMD ophthalmologist, SM-ProTrack will advance the technology to proof-of-principle validation, hence building a solid commercialization case while addressing an unmet global need.
SM-ProTrack will pave the way for a low-cost, highly sensitive technology for single protein molecule sensing, that can provide rapid and accurate results from dilute and small clinical sample volumes with minimal biases. Validated in the field of AMD biomarkers, our technology can be further applied in many other liquid biopsy diagnostics fields.
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| Web resources: | https://cordis.europa.eu/project/id/101188779 |
| Start date: | 01-09-2024 |
| End date: | 28-02-2026 |
| Total budget - Public funding: | - 150 000,00 Euro |
Cordis data
Original description
Protein molecule sensing techniques are currently hampered by detection limits and require large samples to achieve acceptable levels of sensitivity, bias, throughput, cost, and time to result. Leveraging findings from our NanoProt-ID (ADG ERC), in SM-ProTrack we will develop a novel single-molecule sensing method with unprecedented levels of detail and accuracy. This technology is based on the separation of molecules using silicon nano-channels on a chip, tracking of single molecules, and high-precision identification using AI algorithms. Thus, the technology allows detection of multiplexed, full-length single proteins, from extremely small sample volumes, in a low-cost, portable device.Here, to advance the clinical relevancy of the technology and build specific commercial value, we will apply it towards Age-related Macular Degeneration (AMD) sensing based on liquid biopsy. AMD represents 90% of cases of legal blindness globally, affecting ~200 million people’s life quality. To date, a quantitative sensing of AMD biomarkers, has not been possible due to the extremely small volumes of the clinical eye-derived aqueous humour (AH) sample and low abundance of the AMD biomarkers. In collaboration with a leading AMD ophthalmologist, SM-ProTrack will advance the technology to proof-of-principle validation, hence building a solid commercialization case while addressing an unmet global need.
SM-ProTrack will pave the way for a low-cost, highly sensitive technology for single protein molecule sensing, that can provide rapid and accurate results from dilute and small clinical sample volumes with minimal biases. Validated in the field of AMD biomarkers, our technology can be further applied in many other liquid biopsy diagnostics fields.
Status
SIGNEDCall topic
ERC-2024-POCUpdate Date
22-11-2024
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