Functional imaging of the mouse brain in its extreme complexity involves substantial trade-offs. An optical intrinsic spectroscopy system can image the entire cortex but at the expense of spatial and temporal resolution [1]. A two-photon microscope (TPM) can image single neurons with high temporal resolution, but the field of view (FOV) is generally restricted. Advanced techniques like random-access scanning allow for imaging single neurons that are millimeters apart but only by ignoring the neurons and tissue in between [2]. By carefully considering the properties of the optical components as well as the imaging requirements, we present a TPM capable of imaging nearly the entire mouse cortex with 15 Hz frame rates and single neuron res...
Kurtz R, Fricke M, Kalb J, Tinnefeld P, Sauer M. Application of multiline two-photon microscopy to f...
Two-photon microscopy (TPM) has been widely accepted owing to its high resolution, 3D imaging capabi...
The simultaneous imaging and manipulating of neural activity could enable the functional dissection ...
We developed a miniaturized two-photon microscope (MINI2P) for fast, high-resolution, multiplane cal...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Brain is composed of complex neural networks that work in concert to underlie the animal’s cognition...
A two-photon microscope is basically a scanning confocal microscope that uses for excitation near-in...
The ability to visualize deep brain structures in vivo with high spatial resolution is of rising int...
Two-photon microscopy is currently the technique of choice for deep imaging in scattering, opaque sp...
Two-photon microscopy has become a widely adopted tool for functional Calcium imaging in neuroscienc...
Two-photon microscopy is used to image neuronal activity, but has severe limitations for studying de...
Here we describe an automated method, which we call serial two-photon (STP) tomography, that achieve...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Spontaneous and sensory-evoked activity propagates across varying spatial scales in the mammalian co...
Developments in miniaturized microscopes have enabled visualization of brain activities and structur...
Kurtz R, Fricke M, Kalb J, Tinnefeld P, Sauer M. Application of multiline two-photon microscopy to f...
Two-photon microscopy (TPM) has been widely accepted owing to its high resolution, 3D imaging capabi...
The simultaneous imaging and manipulating of neural activity could enable the functional dissection ...
We developed a miniaturized two-photon microscope (MINI2P) for fast, high-resolution, multiplane cal...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Brain is composed of complex neural networks that work in concert to underlie the animal’s cognition...
A two-photon microscope is basically a scanning confocal microscope that uses for excitation near-in...
The ability to visualize deep brain structures in vivo with high spatial resolution is of rising int...
Two-photon microscopy is currently the technique of choice for deep imaging in scattering, opaque sp...
Two-photon microscopy has become a widely adopted tool for functional Calcium imaging in neuroscienc...
Two-photon microscopy is used to image neuronal activity, but has severe limitations for studying de...
Here we describe an automated method, which we call serial two-photon (STP) tomography, that achieve...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Spontaneous and sensory-evoked activity propagates across varying spatial scales in the mammalian co...
Developments in miniaturized microscopes have enabled visualization of brain activities and structur...
Kurtz R, Fricke M, Kalb J, Tinnefeld P, Sauer M. Application of multiline two-photon microscopy to f...
Two-photon microscopy (TPM) has been widely accepted owing to its high resolution, 3D imaging capabi...
The simultaneous imaging and manipulating of neural activity could enable the functional dissection ...