Add to ORKGPhotoacoustic microscopy was developed to achieve volumetric imaging of the anatomy and functions of the subcutaneous microvasculature in both small animals and humans in vivo with high spatial resolution and high signal-to-background ratio. By following the skin contour in raster scanning, the ultrasonic transducer maintains focusing in the region of interest. Furthermore, off-focus lateral resolution is improved by using a synthetic-aperture focusing technique based on the virtual point detector concept. Structural images are acquired in both rats and humans, whereas functional images representing hemoglobin oxygen saturation are acquired in rats. After multiscale vesselness filtering, arterioles and venules in the image are separated bas...
Photoacoustic (PA) imaging is one of the fastest growing imaging technologies nowadays in both resea...
[[abstract]]An in vivo backward-mode photoacoustic microscope was recently developed that employs a ...
Although optical absorption is strongly associated with the physiological status of biological tissu...
[[abstract]]© 2006 Optical Society of America-Photoacoustic microscopy was developed to achieve volu...
Three-dimensional photoacoustic imaging of subcutaneous microvasculature in small animals is realize...
[[abstract]]Three-dimensional photoacoustic imaging of subcutaneous microvasculature in small animal...
Three-dimensional photoacoustic imaging of subcutaneous microvasculature in small animals is realize...
Three-dimensional photoacoustic imaging of subcutaneous microvasculature in small animals is realize...
Three-dimensional photoacoustic imaging of subcutaneous microvasculature in small animals is realize...
Background and Objectives The ability to correctly visualize the architectural arrangement of microv...
Photoacoustic microscopy (PAM) is a fast-growing invivo imaging modality that combines both optics a...
[[abstract]]© 2007 International Society for Optical Engineering-Visualization of microvascular netw...
Photoacoustic microscopy (PAM) is a fast-growing invivo imaging modality that combines both optics a...
Microcirculation is an important component of the cardiovascular system and can be used to assess sy...
Photoacoustic imaging is a noninvasive, nonionizing imaging modality that combines the merits of hi...
Photoacoustic (PA) imaging is one of the fastest growing imaging technologies nowadays in both resea...
[[abstract]]An in vivo backward-mode photoacoustic microscope was recently developed that employs a ...
Although optical absorption is strongly associated with the physiological status of biological tissu...
[[abstract]]© 2006 Optical Society of America-Photoacoustic microscopy was developed to achieve volu...
Three-dimensional photoacoustic imaging of subcutaneous microvasculature in small animals is realize...
[[abstract]]Three-dimensional photoacoustic imaging of subcutaneous microvasculature in small animal...
Three-dimensional photoacoustic imaging of subcutaneous microvasculature in small animals is realize...
Three-dimensional photoacoustic imaging of subcutaneous microvasculature in small animals is realize...
Three-dimensional photoacoustic imaging of subcutaneous microvasculature in small animals is realize...
Background and Objectives The ability to correctly visualize the architectural arrangement of microv...
Photoacoustic microscopy (PAM) is a fast-growing invivo imaging modality that combines both optics a...
[[abstract]]© 2007 International Society for Optical Engineering-Visualization of microvascular netw...
Photoacoustic microscopy (PAM) is a fast-growing invivo imaging modality that combines both optics a...
Microcirculation is an important component of the cardiovascular system and can be used to assess sy...
Photoacoustic imaging is a noninvasive, nonionizing imaging modality that combines the merits of hi...
Photoacoustic (PA) imaging is one of the fastest growing imaging technologies nowadays in both resea...
[[abstract]]An in vivo backward-mode photoacoustic microscope was recently developed that employs a ...
Although optical absorption is strongly associated with the physiological status of biological tissu...