<p>, TPLSM projection of cortical vasculature in <i>ephrin-B2<sup>+/H2B−eGFP</sup></i> mouse with the blood plasma labeled by intravenous injection of Texas Red-dextran. <i>Ephrin-B2<sup>+/H2B−eGFP</sup></i> mice express nuclear GFP in arterial endothelial cells, which allows these vessels to be distinguished with cellular resolution. <b>B</b>, TPLSM image through the center of an arteriole from the white box in (A). The double-headed arrow indicates the location where line-scans were recorded and the single-headed arrow represents the direction of flow. <b>C</b>, Line-scan data from the vessel in (B) where each sequential line-scan appears beneath the one before, forming a space-time image with time increasing from top to bottom. Each dark...
Understanding the structure and function of vasculature in the brain requires us to monitor distribu...
For LMCs, diameter measurements are additionally given for the state after MCAo & LMC-dil. “x” is us...
The present study was aimed to characterize 3-dimensional (3D) morphology of the cortical microvascu...
The ability to measure blood velocities is critical for studying vascular development, physiology, a...
The ability to measure blood velocities is critical for studying vascular development, physiology, a...
<p>, Low-magnification TPLSM image of cortical vasculature in control mouse with the blood plasma la...
In vivo (molecular) imaging of the vessel wall of large arteries at subcellular resolution is crucia...
<p>, Three-dimensional rendering of cortical vessels imaged with TPLSM demonstrating depth-dependent...
This thesis describes a novel imaging methodology for visualization and quantitative analysis of the...
A functional brain vascular supply is crucial for delivery of life-essential nutrients and removal o...
Scanning microscopes normally use trajectories which produce full-frame images of an object at a low...
<div><p>(A) Maximal projection of TPLSM image stack showing several surface arterioles (red A) and v...
Summary: Laser speckle flowmetry (LSF) is useful to assess noninvasively two-dimensional cerebral bl...
<p>(a,b) Intravital imaging in different animals with arteriole (A), venule (V) and nerve fiber (N) ...
Ex vivo 2-photon fluorescence microscopy (2PFM) with optical clearing enables vascular imaging deep ...
Understanding the structure and function of vasculature in the brain requires us to monitor distribu...
For LMCs, diameter measurements are additionally given for the state after MCAo & LMC-dil. “x” is us...
The present study was aimed to characterize 3-dimensional (3D) morphology of the cortical microvascu...
The ability to measure blood velocities is critical for studying vascular development, physiology, a...
The ability to measure blood velocities is critical for studying vascular development, physiology, a...
<p>, Low-magnification TPLSM image of cortical vasculature in control mouse with the blood plasma la...
In vivo (molecular) imaging of the vessel wall of large arteries at subcellular resolution is crucia...
<p>, Three-dimensional rendering of cortical vessels imaged with TPLSM demonstrating depth-dependent...
This thesis describes a novel imaging methodology for visualization and quantitative analysis of the...
A functional brain vascular supply is crucial for delivery of life-essential nutrients and removal o...
Scanning microscopes normally use trajectories which produce full-frame images of an object at a low...
<div><p>(A) Maximal projection of TPLSM image stack showing several surface arterioles (red A) and v...
Summary: Laser speckle flowmetry (LSF) is useful to assess noninvasively two-dimensional cerebral bl...
<p>(a,b) Intravital imaging in different animals with arteriole (A), venule (V) and nerve fiber (N) ...
Ex vivo 2-photon fluorescence microscopy (2PFM) with optical clearing enables vascular imaging deep ...
Understanding the structure and function of vasculature in the brain requires us to monitor distribu...
For LMCs, diameter measurements are additionally given for the state after MCAo & LMC-dil. “x” is us...
The present study was aimed to characterize 3-dimensional (3D) morphology of the cortical microvascu...