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Multi-MHz laser-scanning single-cell fluorescence microscopy by spatiotemporally encoded virtual source array.

Biomedical optics express (2017-10-03)
Jianglai Wu, Anson H L Tang, Aaron T Y Mok, Wenwei Yan, Godfrey C F Chan, Kenneth K Y Wong, Kevin K Tsia
RÉSUMÉ

Apart from the spatial resolution enhancement, scaling of temporal resolution, equivalently the imaging throughput, of fluorescence microscopy is of equal importance in advancing cell biology and clinical diagnostics. Yet, this attribute has mostly been overlooked because of the inherent speed limitation of existing imaging strategies. To address the challenge, we employ an all-optical laser-scanning mechanism, enabled by an array of reconfigurable spatiotemporally-encoded virtual sources, to demonstrate ultrafast fluorescence microscopy at line-scan rate as high as 8 MHz. We show that this technique enables high-throughput single-cell microfluidic fluorescence imaging at 75,000 cells/second and high-speed cellular 2D dynamical imaging at 3,000 frames per second, outperforming the state-of-the-art high-speed cameras and the gold-standard laser scanning strategies. Together with its wide compatibility to the existing imaging modalities, this technology could empower new forms of high-throughput and high-speed biological fluorescence microscopy that was once challenged.

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Sigma-Aldrich
Anti-Goat IgG (H+L), highly crossed-adsorbed, CF750 antibody produced in donkey, ~2 mg/mL, affinity isolated antibody, buffered aqueous solution