03/04/2026
New CYTOQUBE microplate cytometer from Hamamatsu Photonics for real-time acquisition of 3D cytology data
Hamamatsu Photonics has developed a new instrument, creating a unique class of cell analyzers. By implementing light-sheet optics and image analysis, in combination with an easy-to-use interface, we have engineered a fast, user-friendly system ideal for 3D cell screening assays.
Building on our deep foundation of engineering and life science applications, we have developed a new tool for advanced live cell image analysis. The CYTOQUBE Light-Sheet Microplate Cytometer (C15200-01RGBU) is designed to enable fast, information-dense imaging of multi-well cell culture plates. Using a streamlined implementation of light-sheet microscopy and our own Zyncscan image processing platform, the CYTOQUBE rapidly acquires 3D fluorescence images of each well in an entire microplate. The imaging data collected with the CYTOQUBE and Zyncscan enables rapid assays for size, shape, number, and color/intensity of cells or cell populations. The CYTOQUBE’s advantages start with the light-sheet optical system for simplified 3D acquisition and culminate with our advanced Zyncscan imaging processing algorithms for fast acquisition and rendering of 3D images and increased signal-to-noise ratio through the removal of background fluorescence.
Since the CYTOQUBE uniquely excels at fast 3D imaging of microplates, this may make it especially useful in drug discovery. The full path from target identification to drug development can take 12-15 years and is both very high risk and high reward. Classic 2D cell culture drug screening assays are well-established and achieve high throughput, but notably lack in vivo relevance. To enhance successful outcomes, especially for cancer drug development, scientists are increasingly turning to 3D cultures of spheroids or even organoids. While these cultures more closely model in vivo conditions, they are also more difficult to assay especially because 3D imaging adds significant time to results. Any tools or processes that can speed up the acquisition of live 3D cytology data could add significant benefits in the drug discovery pathway. Because the CYTOQUBE is able to capture fast 3D fluorescence image data, it has the potential to boost the efficiency of drug screening and opens up new possibilities for cellular assays.
More information at:CYTOQUBE Light-sheet microplate cytometer C15200-01RGBU | Hamamatsu Photonics
Building on our deep foundation of engineering and life science applications, we have developed a new tool for advanced live cell image analysis. The CYTOQUBE Light-Sheet Microplate Cytometer (C15200-01RGBU) is designed to enable fast, information-dense imaging of multi-well cell culture plates. Using a streamlined implementation of light-sheet microscopy and our own Zyncscan image processing platform, the CYTOQUBE rapidly acquires 3D fluorescence images of each well in an entire microplate. The imaging data collected with the CYTOQUBE and Zyncscan enables rapid assays for size, shape, number, and color/intensity of cells or cell populations. The CYTOQUBE’s advantages start with the light-sheet optical system for simplified 3D acquisition and culminate with our advanced Zyncscan imaging processing algorithms for fast acquisition and rendering of 3D images and increased signal-to-noise ratio through the removal of background fluorescence.
Since the CYTOQUBE uniquely excels at fast 3D imaging of microplates, this may make it especially useful in drug discovery. The full path from target identification to drug development can take 12-15 years and is both very high risk and high reward. Classic 2D cell culture drug screening assays are well-established and achieve high throughput, but notably lack in vivo relevance. To enhance successful outcomes, especially for cancer drug development, scientists are increasingly turning to 3D cultures of spheroids or even organoids. While these cultures more closely model in vivo conditions, they are also more difficult to assay especially because 3D imaging adds significant time to results. Any tools or processes that can speed up the acquisition of live 3D cytology data could add significant benefits in the drug discovery pathway. Because the CYTOQUBE is able to capture fast 3D fluorescence image data, it has the potential to boost the efficiency of drug screening and opens up new possibilities for cellular assays.
More information at:CYTOQUBE Light-sheet microplate cytometer C15200-01RGBU | Hamamatsu Photonics
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Contact for press inquiries
Hamamatsu Photonics Deutschland GmbH
Dr. Julietta Jupe
julietta.jupe@hamamatsu.eu
Dr. Julietta Jupe
julietta.jupe@hamamatsu.eu
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