SubsidieMeestersRapid Affordable Microbiota Analysis at the point of Need
BforCure's RAMAN project aims to develop a rapid, affordable microbiota analysis device for point-of-need testing, enhancing health and production outcomes in various sectors.
Projectdetails
Introduction
With the pressing demand for precision medicine and the catastrophic damage to microbiological ecosystems following organic processing and global warming, there is a critical need to rapidly characterize microbiota directly at the point of need. This allows for the observation of their potential drifts in real-time to correct them in a timely manner.
Market Overview
We recently observed an explosive growth of the microbiota market (+30% CAGR) with analyses relying on culture, metagenomics, or proteomics. However, all the available solutions are far too long to process and unadapted to operate at the point of need.
Project Development
BforCure has developed the first device ever enabling Rapid, Affordable Microbiota Analysis at the point of Need (RAMAN) for a comprehensive microbiota test result in just 10 minutes. The RAMAN project aims at:
- Maturing technologies from TRL4 to TRL 6.
- Developing two microbiota universal tests for:
- Vaginal microbiota (critical during deliveries with 4% of problematic births worldwide).
- Fermentation microbiota (responsible for the loss of up to 25% of the production with organic transformation).
Demand and Legislation
Strong demand from end-users and increasing legislation on the spread of microbiological risks make this an ideal time for our project. BforCure has developed a set of 4 breakthrough micro-nano-bio technologies that, once combined, unlock for the first time the possibility of bringing microbiota tests at the Point of Need, giving a strong competitive advantage in a €11.9B market.
Company Background
BforCure is a dynamic company that has already demonstrated the successful development and commercialization of a microfluidic medical device in just 3 years. Our direct contact with the market and our agility in development make us the perfect team to build market-driven products with disruptive technologies, which is crucial to creating new markets.
Future Potential
Once industrialized, our solution will enable BforCure and its customers to harness the power of the microbiota in many other contexts in health, the agri-food industry, and wellness.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 2.466.223 |
| Totale projectbegroting | € 2.466.223 |
Tijdlijn
| Startdatum | 1-3-2024 |
| Einddatum | 28-2-2026 |
| Subsidiejaar | 2024 |
Partners & Locaties
Projectpartners
- BFORCUREpenvoerder
Land(en)
Vergelijkbare projecten binnen EIC Transition
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
AUTOMATED CLINICAL PLATFORM FOR PERSONALIZED ANTIBIOTHERAPY IN CRITICAL UNITS BASED ON SURFACE ENHANCEMENT RAMAN SPECTROSCOPYACU-SERS aims to revolutionize antibiotic dosing in sepsis patients by providing a fast, automated, and cost-effective system for therapeutic drug monitoring, enhancing clinical outcomes and commercial viability. | EIC Transition | € 2.499.997 | 2024 | Details |
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A metagenomic-based precision-medicine tool for personalized diagnosis, prognosis and treatment of oral diseasesPreBiomicsPMT aims to develop an automated precision-medicine test using metagenomics and AI to assess peri-implant plaque microbiomes, enhancing diagnosis and treatment for dental implant patients. | EIC Transition | € 2.461.900 | 2023 | Details |
AUTOMATED CLINICAL PLATFORM FOR PERSONALIZED ANTIBIOTHERAPY IN CRITICAL UNITS BASED ON SURFACE ENHANCEMENT RAMAN SPECTROSCOPY
ACU-SERS aims to revolutionize antibiotic dosing in sepsis patients by providing a fast, automated, and cost-effective system for therapeutic drug monitoring, enhancing clinical outcomes and commercial viability.
Bacterial Eavesdropping for Fast Antibiotic Susceptibility Testing
SoundCell technology aims to revolutionize antimicrobial susceptibility testing by reducing diagnostic time to under 1 hour, improving treatment outcomes and lowering healthcare costs.
Leveraging CRISPR-Cas for fast and accurate point-of-care diagnostics
Scope Biosciences aims to validate its patented CRISPR-Cas diagnostic technology, scopeDx, for rapid, accurate, and adaptable point-of-care diagnostics in healthcare.
A metagenomic-based precision-medicine tool for personalized diagnosis, prognosis and treatment of oral diseases
PreBiomicsPMT aims to develop an automated precision-medicine test using metagenomics and AI to assess peri-implant plaque microbiomes, enhancing diagnosis and treatment for dental implant patients.
Vergelijkbare projecten uit andere regelingen
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|---|---|---|---|---|
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Sneltest bacteriele ziekteverwekkersHet project onderzoekt de haalbaarheid van een betaalbare SERS-sneltest voor bacteriële ziekteverwekkers om de toegang tot zorg te verbeteren en diagnostiek te democratiseren. | Mkb-innovati... | € 20.000 | 2021 | Details |
World’s first diagnostic test that can detect all bacterial species in a single assay
Inbiome aims to implement the "Molecular Culture" diagnostic test in hospitals to accurately identify bacterial infections within 4 hours, enhancing treatment and reducing costs.
Microbiome-based diagnostics and therapeutics
This project aims to develop microbiome-based diagnostic and therapeutic products by leveraging multi-omics data to identify predictive bacterial strains for disease onset and progression.
Rapid chip-based detection of antibiotic resistances
Developing ResisCHIP, a rapid RNA diagnostic tool for bacterial infections, to enhance treatment selection and combat antimicrobial resistance within 2 hours from blood samples.
Mapping the mycobiome
Dit project ontwikkelt en valideert een innovatieve detectiemethode voor het mycobiome in de darm, met als doel de rol ervan in gezondheid en ziekte te begrijpen en therapeutische strategieën te verbeteren.
Sneltest bacteriele ziekteverwekkers
Het project onderzoekt de haalbaarheid van een betaalbare SERS-sneltest voor bacteriële ziekteverwekkers om de toegang tot zorg te verbeteren en diagnostiek te democratiseren.