The ability to visualize structural features of the brain and associated functional information has fueled a revolution in our understanding of the brain. The optical technique two-photon microscopy (2PM) is widely used to study individual neural circuits and blood vessel networks in vivo because it is minimally invasive and provides three-dimensional images with cellular resolution. There is rising interest from neuroscientists for the ability to extend the traditional imaging depth of 2PM, which is typically limited to ∼500 μm below the surface of the brain. In this dissertation, I detail the development of a novel laser source that enables deep-tissue in vivo multiphoton microscopy imaging of blood vessel networks and neurons. Using an ...
Two-photon microscopy is currently the technique of choice for deep imaging in scattering, opaque sp...
In vivo two-photon microscopy has revealed vital information on neural activity for brain function, ...
Abstract. Deep tissue in vivo two-photon fluorescence imaging of cortical vasculature in a mouse bra...
The ability to visualize structural features of the brain and associated functional information has ...
The ability to visualize deep brain structures in vivo with high spatial resolution is of rising int...
Two-photon microscopy is often used to image in vivo neural structural due to the excellent contrast...
A functional brain vascular supply is crucial for delivery of life-essential nutrients and removal o...
The benefit of high-resolution imaging provided by optical microscopy has resulted in many discoveri...
Fluorescence imaging in biology has become a fundamental tool to understanding structure and functio...
Brain is composed of complex neural networks that work in concert to underlie the animal’s cognition...
Understanding the structure and function of vasculature in the brain requires us to monitor distribu...
125 pagesMultiphoton microscopy has enabled unprecedented access to biological systems in their nati...
Two-photon microscopy has become a widely adopted tool for functional Calcium imaging in neuroscienc...
In vivo two-photon microscopy utilizing a nonlinear optical process enables, in living mouse brains,...
A two-photon microscope is basically a scanning confocal microscope that uses for excitation near-in...
Two-photon microscopy is currently the technique of choice for deep imaging in scattering, opaque sp...
In vivo two-photon microscopy has revealed vital information on neural activity for brain function, ...
Abstract. Deep tissue in vivo two-photon fluorescence imaging of cortical vasculature in a mouse bra...
The ability to visualize structural features of the brain and associated functional information has ...
The ability to visualize deep brain structures in vivo with high spatial resolution is of rising int...
Two-photon microscopy is often used to image in vivo neural structural due to the excellent contrast...
A functional brain vascular supply is crucial for delivery of life-essential nutrients and removal o...
The benefit of high-resolution imaging provided by optical microscopy has resulted in many discoveri...
Fluorescence imaging in biology has become a fundamental tool to understanding structure and functio...
Brain is composed of complex neural networks that work in concert to underlie the animal’s cognition...
Understanding the structure and function of vasculature in the brain requires us to monitor distribu...
125 pagesMultiphoton microscopy has enabled unprecedented access to biological systems in their nati...
Two-photon microscopy has become a widely adopted tool for functional Calcium imaging in neuroscienc...
In vivo two-photon microscopy utilizing a nonlinear optical process enables, in living mouse brains,...
A two-photon microscope is basically a scanning confocal microscope that uses for excitation near-in...
Two-photon microscopy is currently the technique of choice for deep imaging in scattering, opaque sp...
In vivo two-photon microscopy has revealed vital information on neural activity for brain function, ...
Abstract. Deep tissue in vivo two-photon fluorescence imaging of cortical vasculature in a mouse bra...