A depth projected en face video of inter-volume phase variance OCT angiography in an in vivo mouse ear at 30 V-scans/s
Optoacoustic imaging can noninvasively provide visualization of vasculature structures with optical ...
30 Hz large scale in vivo calcium imaging of a mouse hippocampus. Extended depth of field images are...
<p>B is a curved maximum intensity projection in coronal orientation of the same scan. A and B demon...
A depth projected video of the axial displacement calculated from Doppler shift in an in vivo mouse ...
Fast imaging of blood flow in the mouse ear (see Visualization 1). Pixel number 200×200, scanning ar...
three-dimensional volumetric images for the in vivo imaging of mouse ear, the dimension of the white...
Video shows the fly-through the stack of ultrasound and optoacoustic single-wavelength images of a m...
Animated 240 µm thick volume stack (60 slices, 4 µm z-step) showing deep imaging on an eGFP mouse br...
<p>(a,b) Intravital imaging in different animals with arteriole (A), venule (V) and nerve fiber (N) ...
Animated 200 µm thick z-stack (51 slices, 4 µm z-step) showing deep imaging in the subcutaneous tiss...
Optoacoustic tomography systems have attained unprecedented volumetric imaging speeds, thus enabling...
Optoacoustic tomography can visualize optical contrast in tissues while capitalizing on the advantag...
30 Hz in vivo calcium imaging of a mouse hippocampus. Extended depth of field images are displayed
Volume rendering of mouse ear vasculature imaged by conventional PAM and MAI-PAM respectively
Optoacoustic tomography systems have attained un-precedented volumetric imaging speeds, thus enablin...
Optoacoustic imaging can noninvasively provide visualization of vasculature structures with optical ...
30 Hz large scale in vivo calcium imaging of a mouse hippocampus. Extended depth of field images are...
<p>B is a curved maximum intensity projection in coronal orientation of the same scan. A and B demon...
A depth projected video of the axial displacement calculated from Doppler shift in an in vivo mouse ...
Fast imaging of blood flow in the mouse ear (see Visualization 1). Pixel number 200×200, scanning ar...
three-dimensional volumetric images for the in vivo imaging of mouse ear, the dimension of the white...
Video shows the fly-through the stack of ultrasound and optoacoustic single-wavelength images of a m...
Animated 240 µm thick volume stack (60 slices, 4 µm z-step) showing deep imaging on an eGFP mouse br...
<p>(a,b) Intravital imaging in different animals with arteriole (A), venule (V) and nerve fiber (N) ...
Animated 200 µm thick z-stack (51 slices, 4 µm z-step) showing deep imaging in the subcutaneous tiss...
Optoacoustic tomography systems have attained unprecedented volumetric imaging speeds, thus enabling...
Optoacoustic tomography can visualize optical contrast in tissues while capitalizing on the advantag...
30 Hz in vivo calcium imaging of a mouse hippocampus. Extended depth of field images are displayed
Volume rendering of mouse ear vasculature imaged by conventional PAM and MAI-PAM respectively
Optoacoustic tomography systems have attained un-precedented volumetric imaging speeds, thus enablin...
Optoacoustic imaging can noninvasively provide visualization of vasculature structures with optical ...
30 Hz large scale in vivo calcium imaging of a mouse hippocampus. Extended depth of field images are...
<p>B is a curved maximum intensity projection in coronal orientation of the same scan. A and B demon...
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