Mauna Kea Technologies manufactures Cellvizio Lab, confocal probe based imaging system, providing cellular-level images with minimal invasiveness for longitudinal studies.
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Intoducing spheroOne: Automated sorting and isolation of single spheroids and organoids
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spheroONE is an innovative single large-particle sorter and dispenser which revolutionizes 3D cellular models handling....
Outstanding post-sort sample recovery on the WOLF Cell Sorter
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The new WOLF G2 instrument has significantly expanded the capabilities of gentle benchtop microfluidic cell sorting...
Incucyte AI module: Advanced Label-Free Classification Analysis
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Monitor adherent cell morphology changes objectively to determine live/dead cell counts or classify cells based on...
Favipiravir at high doses has potent antiviral activity in SARS-CoV-2−infected hamsters
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Favipiravir at high doses has potent antiviral activity in SARS-CoV-2−infected hamsters, whereas hydroxychloroquine...
Intoducing cellenONE: The revolutionary Single Cell isolator
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Advances in Leukemia research using shear flow and Bioflux system
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Leukemia is a rare cancer with many subtypes. The production of abnormal leukocytes create disruptions in the immune...
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A prodigy incorporating a unique combination of patent-pending innovative technologies that takes flow cytometry to the...
In-vivo webinar: a versatile use of SPECT/CT in the development of theranostic tracers
Mar 9, 2022
Combining (preclinical) imaging and targeted therapy, is the basis of theranostics. In this webinar, Dr. Florea will...
Introducing IsoPlexis Single-Cell Natural Killer Panel
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Enhanced small particle detection on CytekAurora and Northern Lights
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Aurora system with ESP option, can fully resolve particles around 70nm and from the 80nm PS bead. The new violet laser...
Tracking of mesenchymal stem cells with fluorescence endomicroscopy imaging
Mar 9, 2017
In this work, you will find how to use the fluorescence endomicroscopy as a novel imaging tool to track MSCs in vivo. MSCs were fluorescently labeled and injected into a rat model of radiation-induced lung injury via endotracheal (ET) or intravascular (IV) administration. The results show that MSCs were visible in the lungs with fluorescence endomicroscopy. Together with automatic cell counting algorithm to quantify the number of detected cells in each condition there was observed a significantly higher number of detected cells in ET injection compared to IV and a slight increase in the mean number of detected cells in irradiated lungs compared to control, although the latter did not reach statistical significance. Fluorescence endomicroscopy imaging is a powerful new minimally invasive and translatable tool that can be used to track and quantify MSCs in the lungs and help assess their potential in organ repair.
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