Extracellular vesicles (EVs), including exosomes and microvesicles, are tiny, cell-derived particles that carry molecular information mirroring the state of their cells of origin. They offer immense potential for early disease detection, monitoring treatment effectiveness, and revealing the underlying mechanisms of health and disease.
Many research groups and clinical laboratories recognize the potential of extracellular vesicles but face barriers such as limited equipment, lack of single-EV analysis experience, and missing standardized protocols that can slow progress or yield inconclusive results.
Our team combines decades of expertise with state-of-the-art methods to deliver dependable results.
Our Service
- Reliable, comparable concentration measurements of cell-type specific EVs in biofluids.
Flow Cytometry
- We use high-throughput flow cytometry, the most efficient technique for detecting rare EVs. Using our deep expertise, we calibrate instruments precisely, interpret results with accuracy, and deliver standardized reports you can trust.
- We are developing advanced protocols to boost flow cytometer throughput without compromising quality, improving statistical power in rare EV analysis.
Service details
- Sample quality assessment: Evaluation of sample suitability to ensure optimal EV detection
- Comprehensive reporting: Delivery of a detailed data report and MIFlowCyt-EV standardization report
- Academic rate: Preferential 10% discount for universities and research institutions
- Grant application support: Provision of a formal quote and expert guidance to strengthen proposals prior to submission
Who we serve
- Pre-collection consultation ensures correct handling and the highest sample quality for EV analysis.
Why EVcount
- Pioneering single nanoparticle characterization for over 28 years
- State-of-the-art infrastructure
- Continuous R&D innovation
- Unique in Europe
Additional facilities
- Microfluidic fluorescence resistive pulse sensing (MRPS)
- Nanoparticle tracking analysis (NTA)
- Tunable resistive pulse sensing (TRPS)
- Surface plasmon resonance imaging