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Volumetric Lissajous confocal microscopy with tunable spatiotemporal resolution

Takahiro Deguchi, Paolo Bianchini, Gemma Palazzolo, Michele Oneto, Alberto Diaspro, Martí Duocastella

2020Biomedical Optics Express19 citationsDOIOpen Access PDF

Abstract

Dynamic biological systems present challenges to existing three-dimensional (3D) optical microscopes because of their continuous temporal and spatial changes. Most techniques are rigid in adapting the acquisition parameters over time, as in confocal microscopy, where a laser beam is sequentially scanned at a predefined spatial sampling rate and pixel dwell time. Such lack of tunability forces a user to provide scan parameters, which may not be optimal, based on the best assumption before an acquisition starts. Here, we developed volumetric Lissajous confocal microscopy to achieve unsurpassed 3D scanning speed with a tunable sampling rate. The system combines an acoustic liquid lens for continuous axial focus translation with a resonant scanning mirror. Accordingly, the excitation beam follows a dynamic Lissajous trajectory enabling sub-millisecond acquisitions of image series containing 3D information at a sub-Nyquist sampling rate. By temporal accumulation and/or advanced interpolation algorithms, the volumetric imaging rate is selectable using a post-processing step at the desired spatiotemporal resolution for events of interest. We demonstrate multicolor and calcium imaging over volumes of tens of cubic microns with 3D acquisition speeds of 30 Hz and frame rates up to 5 kHz.

Topics & Concepts

Lissajous curveOpticsFrame rateLight sheet fluorescence microscopyTemporal resolutionSampling (signal processing)ConfocalComputer scienceMicroscopeImage resolutionComputer visionRefresh rateMicroscopyInterpolation (computer graphics)Lens (geology)Materials sciencePhysicsScanning confocal electron microscopyDetectorMotion (physics)Advanced Fluorescence Microscopy TechniquesDigital Holography and MicroscopyImage Processing Techniques and Applications
Volumetric Lissajous confocal microscopy with tunable spatiotemporal resolution | Litcius