SummaryUnraveling the functions of the diverse neural types in any local circuit ultimately requires methods to record from most or all of its cells simultaneously. One promising approach to this goal is fluorescence imaging, but existing methods using laser-scanning microscopy (LSM) are severely limited in their ability to resolve rapid phenomena, like neuronal action potentials, over wide fields. Here we present a microscope that rapidly sections a three-dimensional volume using a thin illumination sheet whose position is rigidly coupled to the objective and aligned with its focal plane. We demonstrate that this approach allows exceptionally low-noise imaging of large neuronal populations at pixel rates at least 100-fold higher than with ...
Neural circuitry has evolved to form distributed networks that act dynamically across large volumes....
Understanding how networks of neurons process information is one of the key challenges in modern neu...
imaging of activity in neural populations by objective-coupled planar illumination microscop
SummaryUnraveling the functions of the diverse neural types in any local circuit ultimately requires...
Complex computations performed by the brain are produced by activities of neuronal populations. Ther...
AbstractIn recent years, optical sensors for tracking neural activity have been developed and offer ...
Understanding the mechanisms of perception, cognition, and behavior requires instruments that are ca...
In vitro systems mimicking brain regions, brain organoids, are revolutionizing the neuroscience fiel...
The nature of nervous system function and development is inherently global, since all components eve...
Light sheet fluorescence microscopy offers considerable potential to the cellular neuroscience commu...
Simultaneous, high-resolution imaging across a large number of synaptic and dendritic sites is criti...
In recent years, optical sensors for tracking neural activity have been developed and offer great ut...
SummaryCorrelating patterned neuronal activity to defined animal behaviors is a core goal in neurosc...
Fast volumetric microscopy is required to monitor large-scale neural ensembles with high spatio-temp...
Recording the activity of large populations of neurons is an important step toward understanding the...
Neural circuitry has evolved to form distributed networks that act dynamically across large volumes....
Understanding how networks of neurons process information is one of the key challenges in modern neu...
imaging of activity in neural populations by objective-coupled planar illumination microscop
SummaryUnraveling the functions of the diverse neural types in any local circuit ultimately requires...
Complex computations performed by the brain are produced by activities of neuronal populations. Ther...
AbstractIn recent years, optical sensors for tracking neural activity have been developed and offer ...
Understanding the mechanisms of perception, cognition, and behavior requires instruments that are ca...
In vitro systems mimicking brain regions, brain organoids, are revolutionizing the neuroscience fiel...
The nature of nervous system function and development is inherently global, since all components eve...
Light sheet fluorescence microscopy offers considerable potential to the cellular neuroscience commu...
Simultaneous, high-resolution imaging across a large number of synaptic and dendritic sites is criti...
In recent years, optical sensors for tracking neural activity have been developed and offer great ut...
SummaryCorrelating patterned neuronal activity to defined animal behaviors is a core goal in neurosc...
Fast volumetric microscopy is required to monitor large-scale neural ensembles with high spatio-temp...
Recording the activity of large populations of neurons is an important step toward understanding the...
Neural circuitry has evolved to form distributed networks that act dynamically across large volumes....
Understanding how networks of neurons process information is one of the key challenges in modern neu...
imaging of activity in neural populations by objective-coupled planar illumination microscop