Future-Generation Diagnostics
The fluidlab R-300 is the smallest and most convenient fluid analyzer available. It combines a full-fledged spectrometer with a high-resolution microscope to enhance its analytical output. A variety of test-specific sample carriers enable the device to perform a broad range of fluid analyses for immunoassays, kinetic enzyme reactions and inorganic chemical analysis.
The integration of an intelligent software suite and miniaturized hardware allows the fluidlab to be developed in a compact and portable design. Thanks to integrated rechargeable batteries, measurements outside a laboratory environment are feasible directly at the point-of-need. The intuitive touchscreen-based user-interface guarantees top-notch usability and customizability.
Introducing the fluidlab R-300
The fluidlab device includes the smallest high-performance spectrometer available. In its standard configuration the spectrometer module provides a nearly complete VIS-Spectrum ranging from 425 to 750 nanometers with a spectral resolution of less than 2 nanometers. Full optical transmission, reflection and absorption measurements can be taken with ease. Custom extension of the spectrometers range (e.g. for UV-measurement) can be provided on request.
The integrated future-generation microscope captures images of particles in a significantly large field of view (FOV 2.3 x 2.3 mm²) ensuring high statistical security with each test result. The optical output is, thereafter processed by anvajos intelligent mathematical reconstruction software providing images of high-resolution. This allows fluidlab to be applied in cell-counting and classification procedures where cell concentration ranges are clinically relevant (from 500 cells/µl up to 50.000 cells/µl).
Robust and rapid image-signal processing and data-parallel operations combined with strong computing power enable efficient analysis of microscope images and spectra directly on the fluidlab (local processing, no cloud service required). Additionally, Machine Learning Methods, such as Deep Neural Networks ensure accurate counting and classification of optical outputs with instant quantitative results.
The Wifi communication interfaces allow for software OTA-updates, digital messaging and safe data transfer to established third-party systems such as hospital, practice and laboratory information systems (HIS, PIS, LIS). Custom data connections, e.g. to cloud computing services can be supported on request.
Self-sufficient, autarkic and network-independent data processing on the local device makes it a reliable system that ensures all data is protected.
A state-of-the-art graphical user interface (GUI) permits easy and intuitive control of the fluidlab functions via a sensitive but robust touchscreen. From basic test procedures to advanced device configuration and customization, the GUI will make analyzing fluids simple.