Add to ORKGCapillaries, the smallest blood vessels, are the distal end of the vasculature where oxygen and nutrients are exchanged between blood and tissue. Hence, noninvasive imaging of capillaries and function in vivo has long been desired as a window to studying fundamental physiology, such as neurovascular coupling. Existing imaging modalities cannot provide the required sensitivity and spatial resolution. We present in vivo imaging of the microvasculature including single capillaries in mice using optical-resolution photoacoustic microscopy (OR-PAM) developed in our laboratory. OR-PAM provides a lateral resolution of 5 µm and an imaging depth >0.7 mm
A confocal photoacoustic microscope with improved lateral resolution has been developed by employing...
Photoacoustic (PA) imaging is one of the fastest growing imaging technologies nowadays in both resea...
We developed section-illumination photoacoustic microscopy capable of dynamic in vivo imaging of mic...
Capillaries, the smallest blood vessels, are the distal end of the vasculature where oxygen and nutr...
Capillaries, the smallest blood vessels, are the distal end of the vasculature where oxygen and nutr...
In vivo microcirculatory imaging facilitates the fundamental understanding of many major diseases. H...
In vivo microcirculatory imaging facilitates the fundamental understanding of many major diseases. H...
Microvascular autoregulation is an intrinsic ability of vascular beds to compensate for the fluctuat...
Microvascular autoregulation is an intrinsic ability of vascular beds to compensate for the fluctuat...
Although ultrasound arrays have been exploited in photoacoustic imaging to improve imaging speed, ul...
Optical-resolution photoacoustic microscopy (OR-PAM) is applied to functional brain imaging in livin...
Optical-resolution photoacoustic microscopy (OR-PAM) is applied to functional brain imaging in livin...
We present a new-generation optical-resolution confocal photoacoustic microscope, consisting of a 0....
We present a new-generation optical-resolution confocal photoacoustic microscope, consisting of a 0....
A confocal photoacoustic microscope with improved lateral resolution has been developed by employing...
A confocal photoacoustic microscope with improved lateral resolution has been developed by employing...
Photoacoustic (PA) imaging is one of the fastest growing imaging technologies nowadays in both resea...
We developed section-illumination photoacoustic microscopy capable of dynamic in vivo imaging of mic...
Capillaries, the smallest blood vessels, are the distal end of the vasculature where oxygen and nutr...
Capillaries, the smallest blood vessels, are the distal end of the vasculature where oxygen and nutr...
In vivo microcirculatory imaging facilitates the fundamental understanding of many major diseases. H...
In vivo microcirculatory imaging facilitates the fundamental understanding of many major diseases. H...
Microvascular autoregulation is an intrinsic ability of vascular beds to compensate for the fluctuat...
Microvascular autoregulation is an intrinsic ability of vascular beds to compensate for the fluctuat...
Although ultrasound arrays have been exploited in photoacoustic imaging to improve imaging speed, ul...
Optical-resolution photoacoustic microscopy (OR-PAM) is applied to functional brain imaging in livin...
Optical-resolution photoacoustic microscopy (OR-PAM) is applied to functional brain imaging in livin...
We present a new-generation optical-resolution confocal photoacoustic microscope, consisting of a 0....
We present a new-generation optical-resolution confocal photoacoustic microscope, consisting of a 0....
A confocal photoacoustic microscope with improved lateral resolution has been developed by employing...
A confocal photoacoustic microscope with improved lateral resolution has been developed by employing...
Photoacoustic (PA) imaging is one of the fastest growing imaging technologies nowadays in both resea...
We developed section-illumination photoacoustic microscopy capable of dynamic in vivo imaging of mic...