Danija – Spektrometrai – BD FACSDiscover A8 Cell Analyser with BD CellView Image Technology

Danija – Spektrometrai – BD FACSDiscover A8 Cell Analyser with BD CellView Image Technology

I dalis: Perkančioji organizacija

I.1) Pavadinimas ir adresai:

Oficialus pavadinimas: Danmarks Tekniske Universitet - DTU
Adresas: Anker Engelunds Vej 1
Miestas: Kgs. Lyngby
Pašto kodas: 2800
Šalis: Danija
Asmuo ryšiams:
El-paštas: kafre@dtu.dk
Interneto adresas (-ai):
Pagrindinis adresas: https://www.dtu.dk

II dalis: Objektas

II.1.1) Pavadinimas:

BD FACSDiscover A8 Cell Analyser with BD CellView Image Technology
Nuorodos numeris: 10661

II.1.2) Pagrindinis BVPŽ kodas:

38433000 Spektrometrai

II.1.3) Sutarties tipas:

Kita

II.1.4) Trumpas aprašymas:

DTU will like to buy a BD FACSDiscover A8 5 Laser 78 detectors from BD Biosciences. The instrument will include the following : • Forward Scatter: Label-free brightfield imaging channel that measures light scattered at small forward angles by the cell as it passes through the laser interrogation point. • SSC Imaging: Label-free imaging channel measuring light scattered at 90° perpendicular to the laser path, capturing internal cellular complexity. • Lightloss Imaging: Measures the total photons lost from the laser beam due to both scattering and absorption by the cell, allowing Label-free brightfield imaging morphological assessment. • Channel 1: Fluorescence imaging (530/30nm range) • Channel 2: Fluorescence imaging (600/60nm range) • Channel 3: Fluorescence imaging (788/225nm range) These imaging channels enable spatial analysis of protein localisation, cellular interactions, and morphological characteristics that remain invisible to traditional flow cytometry. The system generates quantitative image parameters including: • Area and Perimeter measurements for size discrimination • Aspect Ratio and Eccentricity for shape analysis • Diffusivity for texture characterisation • Correlation and Distance for multi-channel co-localisation • Radial Moment for signal distribution analysis. Applications enabled by this technology include: • Identification of subcellular protein localisation (nuclear vs cytoplasmic) • Detection of cell-cell interactions and immunological synapses • Discrimination of budding yeast cells and cell aggregates • Analysis of phagocytosis and particle uptake • Label-free morphological study for downstream sorting. Complementing the imaging capabilities, the instrument should hold a technology for full-spectrum flow cytometry. This system features: • 5 laser configuration: 349 nm (UV), 405 nm (Violet), 488 nm (Blue), 561 nm (Yellow-Green), 637 nm (Red) • 78 fluorescence detectors capturing complete emission spectra • 8 scatter and imaging detectors • System-aware spectral unmixing algorithms that adapt to instrument performance in real-time • Capability for 40+ parameter experiments with optimal resolution and sensitivity Complementing the imaging capabilities, the instruments should include a technology for full-spectrum flow cytometry. This system features: • 5 laser configuration: 349 nm (UV), 405 nm (Violet), 488 nm (Blue), 561 nm (Yellow-Green), 637 nm (Red) • 78 fluorescence detectors capturing complete emission spectra • 8 scatter and imaging detectors • System-aware spectral unmixing algorithms that adapt to instrument performance in real-time • Capability for 40+ parameter experiments with optimal resolution and sensitivity

II.2) Aprašymas:

II.2.1) Kitas (-i) šio pirkimo BVPŽ kodas (-ai):

38433000 Spektrometrai