1. Scanless volumetric imaging by selective access multifocal multiphoton microscopy
- Author
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Josiah R. Boivin, Elly Nedivi, Yi Xue, Christopher J. Rowlands, Peter T. C. So, Kalen P. Berry, and Yu Takiguchi
- Subjects
Physics ,Volumetric imaging ,Spatial light modulator ,business.industry ,Single shot ,Article ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials ,Multifocal multiphoton microscopy ,Functional imaging ,Phase plate ,Optics ,Three dimensional imaging ,business - Abstract
Simultaneous, high-resolution imaging across a large number of synaptic and dendritic sites is critical for understanding how neurons receive and integrate signals. Yet, functional imaging that targets a large number of submicrometer-sized synaptic and dendritic locations poses significant technical challenges. We demonstrate a new parallelized approach to address such questions, increasing the signal-to-noise ratio by an order of magnitude compared to previous approaches. This selective access multifocal multiphoton microscopy uses a spatial light modulator to generate multifocal excitation in three dimensions (3D) and a Gaussian–Laguerre phase plate to simultaneously detect fluorescence from these spots throughout the volume. We test the performance of this system by simultaneously recording Ca(2+) dynamics from cultured neurons at 98–118 locations distributed throughout a 3D volume. This is the first demonstration of 3D imaging in a “single shot” and permits synchronized monitoring of signal propagation across multiple different dendrites.
- Published
- 2018