Add to ORKGImaging intracellular calcium concentration via reporters that change their fluorescence properties upon binding of calcium, referred to as calcium imaging, has revolutionized our way to probe neuronal activity non-invasively. To reach neurons densely located deep in the tissue, optical sectioning at high rate of acquisition is necessary but difficult to achieve in a cost effective manner. Here we implement an accessible solution relying on HiLo micros-copy to provide robust optical sectioning with a high frame rate in vivo. We show that large calcium signals can be recorded from dense neuronal populations at high acquisition rates. We quantify the optical sectioning capabilities and demonstrate the benefits of HiLo micros-copy compared to ...
Genetically-Encoded Fluorescent Calcium Indicators for Optical Imaging (GECOs), that modulate their ...
The development of optogenetics and calcium imaging have enabled light-activated manipulation and mo...
Abstract In vitro systems mimicking brain regions, brain organoids, are revolutionizing the neurosci...
International audienceImaging intracellular calcium concentration via reporters that change their fl...
We have further improved two imaging techniques that are essential for live imaging, fast calcium im...
© 2015 Society of Photo-Optical Instrumentation Engineers (SPIE). Reconstructing a three-dimens...
Significance: Light-field microscopy (LFM) enables fast, light-efficient, volumetric imaging of neur...
Neurons and neural networks often extend hundreds of micrometers in three dimensions. Capturing the ...
Methods for one-photon fluorescent imaging of calcium dynamics can capture the activity of hundreds ...
Increasing the volumetric imaging speed of light-sheet microscopy will improve its ability to detect...
We have further improved two imaging techniques that are essential for live imaging, fast calcium im...
Light microscopy enables noninvasive imaging of fluorescent species in biological speci-mens, but re...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Two-photon calcium imaging of neuronal populations enables optical recording of spiking activity in ...
The brain contains glial cells. Astrocytes, a type of glial cell, have long been known to provide a ...
Genetically-Encoded Fluorescent Calcium Indicators for Optical Imaging (GECOs), that modulate their ...
The development of optogenetics and calcium imaging have enabled light-activated manipulation and mo...
Abstract In vitro systems mimicking brain regions, brain organoids, are revolutionizing the neurosci...
International audienceImaging intracellular calcium concentration via reporters that change their fl...
We have further improved two imaging techniques that are essential for live imaging, fast calcium im...
© 2015 Society of Photo-Optical Instrumentation Engineers (SPIE). Reconstructing a three-dimens...
Significance: Light-field microscopy (LFM) enables fast, light-efficient, volumetric imaging of neur...
Neurons and neural networks often extend hundreds of micrometers in three dimensions. Capturing the ...
Methods for one-photon fluorescent imaging of calcium dynamics can capture the activity of hundreds ...
Increasing the volumetric imaging speed of light-sheet microscopy will improve its ability to detect...
We have further improved two imaging techniques that are essential for live imaging, fast calcium im...
Light microscopy enables noninvasive imaging of fluorescent species in biological speci-mens, but re...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Two-photon calcium imaging of neuronal populations enables optical recording of spiking activity in ...
The brain contains glial cells. Astrocytes, a type of glial cell, have long been known to provide a ...
Genetically-Encoded Fluorescent Calcium Indicators for Optical Imaging (GECOs), that modulate their ...
The development of optogenetics and calcium imaging have enabled light-activated manipulation and mo...
Abstract In vitro systems mimicking brain regions, brain organoids, are revolutionizing the neurosci...