ELEVATE Your Research

Extracellular Vesicles (EVs)

Flexibility and Customization for your EV Workflow

Extracellular vesicles (EVs) have recently gained recognition for their untapped potential as therapeutics and biomarkers. These vesicles are released by almost all cell types and play a crucial role in cell-cell communication by transporting mRNA and miRNAs. Studying EVs in detail poses several challenges, from isolation while preserving their vesicles and cargo intact, to the characterization of individual EVs within heterogeneous populations. Isolating EVs while preserving their vesicles and cargo intact remains a significant challenge. The lack of standardized isolation and purification methods, coupled with the inherent heterogeneity of EVs, makes the production and purification process complex. Developing a tailored workflow to isolate and analyze EVs for your specific requirements is difficult when relying on one-size-fits-all solutions. Our workflow offers flexibility and customization, enabling accelerated answers and unlocking the potential of your desired EV species.

 

 

 


 
         

CELL CULTURE

SEPARATION FROM
CELLS, MEDIA

PURIFICATION

ANALYSIS

Cultivate productive sources of extracellular vesicles with automated cell culture, viability measurements, and media analysis.

Efficiently refine culture supernatant and separate desirable microparticles from debris and large particulates.

Flexibly purify the desired size and density of extracellular vesicle from a heterogeneous sample. Customizable protocols can be fit to your specific needs.

Analyze the size and characterize in detail to understand your population.




What are EVs?
What are EVs used for?

Ranging from 30 to 500 nm in diameter, EVs carry a variety of cargos and play critical roles in intercellular communication and physiological processes including angiogenesis, cell differentiation, and tumor growth. Download the poster to learn more.


Download poster


Learn More about Extracellular Vesicle Characterization

Direct EV Measurement in Complex Biofluids Using Single Vesicle Flow Cytometry (vFCTM) and the CytoFLEX

by John Nolan PhD
CEO of Cellarcus Biosciences


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