Q3128691 (Q3128691): Difference between revisions
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(Changed label, description and/or aliases in en: Setting new description) |
(Created claim: summary (P836): his EXODIAGNOS project proposal addresses the development of novel approach for tumor diagnostics. A new selective, early-stage, non-invasive, express cancer diagnostic procedure utilising exosomal vesiclesand their content recognition by specially designed narrow bandwidth active/passive nano- andmicrophotonic sensors will be proposed for clinical trials.Our approach is based on three recently suggested Novelties.(i) Recognition of exosomal bio...) |
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his EXODIAGNOS project proposal addresses the development of novel approach for tumor diagnostics. A new selective, early-stage, non-invasive, express cancer diagnostic procedure utilising exosomal vesiclesand their content recognition by specially designed narrow bandwidth active/passive nano- andmicrophotonic sensors will be proposed for clinical trials.Our approach is based on three recently suggested Novelties.(i) Recognition of exosomal biomarkers surface and intravesicular proteins and mRNA and DNA nucleic acids as tumor markers.(ii) amplitude and phase detection methods using narrow band localised plasmonic resonances and resonances in microcavities, to make a breakthrough in the sensitivity and selectivity of the respective bioand environmental sensors.(iii) Ultra-sensitive detection promised by Active plasmonic Platform (quantum emitters coupled with the plasmonic nanoresonators and/or microresonators). (English) | |||||||||||||||
| Property / summary: his EXODIAGNOS project proposal addresses the development of novel approach for tumor diagnostics. A new selective, early-stage, non-invasive, express cancer diagnostic procedure utilising exosomal vesiclesand their content recognition by specially designed narrow bandwidth active/passive nano- andmicrophotonic sensors will be proposed for clinical trials.Our approach is based on three recently suggested Novelties.(i) Recognition of exosomal biomarkers surface and intravesicular proteins and mRNA and DNA nucleic acids as tumor markers.(ii) amplitude and phase detection methods using narrow band localised plasmonic resonances and resonances in microcavities, to make a breakthrough in the sensitivity and selectivity of the respective bioand environmental sensors.(iii) Ultra-sensitive detection promised by Active plasmonic Platform (quantum emitters coupled with the plasmonic nanoresonators and/or microresonators). (English) / rank | |||||||||||||||
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| Property / summary: his EXODIAGNOS project proposal addresses the development of novel approach for tumor diagnostics. A new selective, early-stage, non-invasive, express cancer diagnostic procedure utilising exosomal vesiclesand their content recognition by specially designed narrow bandwidth active/passive nano- andmicrophotonic sensors will be proposed for clinical trials.Our approach is based on three recently suggested Novelties.(i) Recognition of exosomal biomarkers surface and intravesicular proteins and mRNA and DNA nucleic acids as tumor markers.(ii) amplitude and phase detection methods using narrow band localised plasmonic resonances and resonances in microcavities, to make a breakthrough in the sensitivity and selectivity of the respective bioand environmental sensors.(iii) Ultra-sensitive detection promised by Active plasmonic Platform (quantum emitters coupled with the plasmonic nanoresonators and/or microresonators). (English) / qualifier | |||||||||||||||
point in time: 30 September 2021
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Revision as of 10:03, 30 September 2021
Project Q3128691 in Greece
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | No label defined |
Project Q3128691 in Greece |
Statements
92,000.0 Euro
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10 October 2017
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9 October 2019
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ΝΑΝΟΤΥΠΟΣ ΟΕ
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40°54'2.41"N, 22°57'19.80"E
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35°11'2.58"N, 24°58'5.63"E
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his EXODIAGNOS project proposal addresses the development of novel approach for tumor diagnostics. A new selective, early-stage, non-invasive, express cancer diagnostic procedure utilizing exosomal vesiclesand their content recognition by specially designed narrow bandwidth active/passive nano- andmicrophotonic sensors will be proposed for clinical trials.Our approach is based on three recently suggested novelties.(i) Recognition of exosomal biomarkers surface and intravesicular proteins and mRNA and DNA nucleic acids as tumor markers.(ii) Amplitude and phase detection methods using narrow band localized plasmonic resonances and resonances in microcavities, to make a breakthrough in the sensitivity and selectivity of the respective bioand environmental sensors.(iii) Ultra-sensitive detection promised by Active Plasmonic Platform (quantum emitters coupled with the plasmonic nanoresonators and/or microresonators). (Greek)
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his EXODIAGNOS project proposal addresses the development of novel approach for tumor diagnostics. A new selective, early-stage, non-invasive, express cancer diagnostic procedure utilising exosomal vesiclesand their content recognition by specially designed narrow bandwidth active/passive nano- andmicrophotonic sensors will be proposed for clinical trials.Our approach is based on three recently suggested Novelties.(i) Recognition of exosomal biomarkers surface and intravesicular proteins and mRNA and DNA nucleic acids as tumor markers.(ii) amplitude and phase detection methods using narrow band localised plasmonic resonances and resonances in microcavities, to make a breakthrough in the sensitivity and selectivity of the respective bioand environmental sensors.(iii) Ultra-sensitive detection promised by Active plasmonic Platform (quantum emitters coupled with the plasmonic nanoresonators and/or microresonators). (English)
30 September 2021
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Identifiers
5.017.617
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