Result in 10 minutes
Red One™ counts fluorescence-stained microbial cells.
Results are delivered within 10 minutes once the sample has been dropped on the cap.
The evolution of fluorescence over time (“staining kinetics”) is analyzed automatically by an algorithm, allowing to differentiate viable cells from inert particles.
Red One™ detects viable active* microorganisms (including bacteria, yeasts and molds) but also eukaryotic cells.
Red One™ can count samples with concentrations in the range
of 10 to 5 10e5 microorganisms per cap (linear range).
Data (coutings, picture…) can be exported in an analysis report.
* permeabilized and metabollicaly active cells
Result in 10 minutes
Red One™ counts fluorescence-stained microbial cells.
Results are delivered within 10 minutes once the sample has been dropped on the cap.
The evolution of fluorescence over time (“staining kinetics”) is analyzed automatically by an algorithm, allowing to differentiate viable cells from inert particles.
Red One™ detects viable active* microorganisms (including bacteria, yeasts and molds) but also eukaryotic cells.
Data (coutings, picture…) can be exported in an analysis report.
* permeabilized and metabollicaly active cells
Result in 10 minutes
Red One™ counts fluorescence-stained microbial cells.
Results are delivered within 10 minutes once the sample has been dropped on the cap.
The evolution of fluorescence over time (“staining kinetics”) is analyzed automatically by an algorithm, allowing to differentiate viable cells from inert particles.
Red One™ detects viable active* microorganisms (including bacteria, yeasts and molds) but also eukaryotic cells.
Data (coutings, picture…) can be exported in an analysis report.
* permeabilized and metabollicaly active cells
Unprecedented sensitivity
Conventional limits of detection of rapid methods such as Flow Cytometry or ATP-Metry are 10e3 to 10e4 CFU/mL for bacteria typically.
Red One™ proved its ability to be strongly correlated with the cultural methods in the range of 10 to 100 CFU per cap, while providing accurate results up to 5 10e5 cells.
Unprecedented sensitivity
Conventional limits of detection of rapid methods such as Flow Cytometry or ATP-Metry are 10e3 to 10e4 CFU/mL for bacteria typically.
Red One™ proved its ability to be strongly correlated with the cultural methods in the range of 10 to 100 CFU per cap, while providing accurate results up to 5 10e5 cells.
Unprecedented sensitivity
Conventional limits of detection of rapid methods such as Flow Cytometry or ATP-Metry are 10e3 to 10e4 CFU/mL for bacteria typically.
Red One™ proved its ability to be strongly correlated with the cultural methods in the range of 10 to 100 CFU per cap, while providing accurate results up to 5 10e5 cells.
One-Step Workflow
Red One™ offers unprecedented ease-of-use.
All steps required to perform analysis are automated within the equipment including fitration and staining steps. No manual handling of the sample is required.
Drop the sample on the cap, close the drawer and it’s done.
One-Step Workflow
Red One™ offers unprecedented ease-of-use.
All steps required to perform analysis are automated within the equipment including fitration and staining steps. No manual handling of the sample is required.
Drop the sample on the cap, close the drawer and it’s done.
One-Step Workflow
Red One™ offers unprecedented ease-of-use.
All steps required to perform analysis are automated within the equipment including fitration and staining steps. No manual handling of the sample is required.
Drop the sample on the cap, close the drawer and it’s done.
