Summary
The prevalence of overweight among the European population is estimated to be near 50% and the prevalence of obesity around 16%. Monitoring obesity and overweight prevalence is important for assessing interventions aimed at preventing or reducing the burden of obesity and related medical risks and providing the tools for maintaining a healthier lifestyle. UltraSense project introduces the concept of a stretchable multi-sensing platform, as a wearable tool for body composition analysis and overall decentral health monitoring, fostering a sustainable and healthier lifestyle.
The platform will comprise smart features, AI signal processing and advanced stretchable materials, enabling the efficient synergy of three compartments of sensors relying on different technologies:
A. Ultra-sound compartment: delivering precise information about body composition and tissue thickness
B. Bioimpedance compartment: fast and reliable measuring of the percentage of fat, water and muscle
C. G-FET biosensor compartment: Biomarker retrieval via sweating at atto-Molar sensitivity in miniaturized footprint
The wearable device will be validate in two use cases:
1. The effect of sport on a healthier lifestyle: monitoring the overall health of people who exercise
2. Early detection and continuous monitoring of metabolic syndrome.
Ultra-Sense's data will be displayed to the user with consistency and reliability, so that medical advice can be sought.
The green and circular material synthesis approaches of the project will reduce the related CO2 emissions by more than 70% from solvent processing. UltraSense will have a huge societal and economic impact: 700k devices will be sold annually already by 2032 for 105M€ of revenues reaching a 10% market share and associated with 20 new jobs. Millions of people will have access to low-cost, easy to use device informing of their body composition helping them improve their lifestyle, reducing obesity and metabolic diseases, and related treatment costs.
The platform will comprise smart features, AI signal processing and advanced stretchable materials, enabling the efficient synergy of three compartments of sensors relying on different technologies:
A. Ultra-sound compartment: delivering precise information about body composition and tissue thickness
B. Bioimpedance compartment: fast and reliable measuring of the percentage of fat, water and muscle
C. G-FET biosensor compartment: Biomarker retrieval via sweating at atto-Molar sensitivity in miniaturized footprint
The wearable device will be validate in two use cases:
1. The effect of sport on a healthier lifestyle: monitoring the overall health of people who exercise
2. Early detection and continuous monitoring of metabolic syndrome.
Ultra-Sense's data will be displayed to the user with consistency and reliability, so that medical advice can be sought.
The green and circular material synthesis approaches of the project will reduce the related CO2 emissions by more than 70% from solvent processing. UltraSense will have a huge societal and economic impact: 700k devices will be sold annually already by 2032 for 105M€ of revenues reaching a 10% market share and associated with 20 new jobs. Millions of people will have access to low-cost, easy to use device informing of their body composition helping them improve their lifestyle, reducing obesity and metabolic diseases, and related treatment costs.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101130192 |
| Start date: | 01-09-2024 |
| End date: | 31-08-2028 |
| Total budget - Public funding: | - 6 984 473,00 Euro |
Cordis data
Original description
The prevalence of overweight among the European population is estimated to be near 50% and the prevalence of obesity around 16%. Monitoring obesity and overweight prevalence is important for assessing interventions aimed at preventing or reducing the burden of obesity and related medical risks and providing the tools for maintaining a healthier lifestyle. UltraSense project introduces the concept of a stretchable multi-sensing platform, as a wearable tool for body composition analysis and overall decentral health monitoring, fostering a sustainable and healthier lifestyle.The platform will comprise smart features, AI signal processing and advanced stretchable materials, enabling the efficient synergy of three compartments of sensors relying on different technologies:
A. Ultra-sound compartment: delivering precise information about body composition and tissue thickness
B. Bioimpedance compartment: fast and reliable measuring of the percentage of fat, water and muscle
C. G-FET biosensor compartment: Biomarker retrieval via sweating at atto-Molar sensitivity in miniaturized footprint
The wearable device will be validate in two use cases:
1. The effect of sport on a healthier lifestyle: monitoring the overall health of people who exercise
2. Early detection and continuous monitoring of metabolic syndrome.
Ultra-Sense's data will be displayed to the user with consistency and reliability, so that medical advice can be sought.
The green and circular material synthesis approaches of the project will reduce the related CO2 emissions by more than 70% from solvent processing. UltraSense will have a huge societal and economic impact: 700k devices will be sold annually already by 2032 for 105M€ of revenues reaching a 10% market share and associated with 20 new jobs. Millions of people will have access to low-cost, easy to use device informing of their body composition helping them improve their lifestyle, reducing obesity and metabolic diseases, and related treatment costs.
Status
SIGNEDCall topic
HORIZON-CL4-2023-RESILIENCE-01-33Update Date
19-09-2024
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Organisations
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| National Technical University of Athens (Coördinator)
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| AMIRES SRO (AMI)
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| BETTHERA S.R.O.
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| GRAPHENEA SEMICONDUCTOR SL
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| INSTITUT JOZEF STEFAN
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| POLAR ELECTRO OY
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| TEKNOLOGIAN TUTKIMUSKESKUS VTT OY
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| UPV. UNIVERSITAT POLITECNICA DE VALENCIA
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| University of Oulu / Oulun yliopisto (UOULU)
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| XTPL SPOLKA AKCYJNA