Add to ORKGMicrovascular autoregulation is an intrinsic ability of vascular beds to compensate for the fluctuation in blood flow and tissue oxygen delivery. This function is crucial to maintaining the local metabolic activity. Here, using optical-resolution photoacoustic microscopy (OR-PAM), we clearly observed vasomotion and vasodilation in the intact mouse microcirculation in vivo in response to the changes in physiological state. Our results show that a significant lowfrequency vasomotion can be seen under hyperoxia but not hypoxia. Moreover, significant vasodilation is observed when the animal status is switched from hyperoxia to hypoxia. Our data show that arterioles have more pronounced vasodilation than venules
We have enhanced photoacoustic microscopy with three-dimensional arbitrary trajectory (3-DAT) scanni...
We have enhanced photoacoustic microscopy with three-dimensional arbitrary trajectory (3-DAT) scanni...
Optical-resolution photoacoustic microscopy (OR-PAM) is applied to functional brain imaging in livin...
Microvascular autoregulation is an intrinsic ability of vascular beds to compensate for the fluctuat...
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...
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...
Capillaries, the smallest blood vessels, are the distal end of the vasculature where oxygen and nutr...
We propose using noninvasive longitudinal optical-resolution photoacoustic microscopy (L-ORPAM) to q...
We propose using noninvasive longitudinal optical-resolution photoacoustic microscopy (L-ORPAM) to q...
Optical-resolution photoacousticmicroscopy (OR-PAM) has been validated as a valuable tool for label-...
Optical-resolution photoacousticmicroscopy (OR-PAM) has been validated as a valuable tool for label-...
A major obstacle in studying angiogenesis is the inability to noninvasively image neovascular develo...
We have enhanced photoacoustic microscopy with three-dimensional arbitrary trajectory (3-DAT) scanni...
We have enhanced photoacoustic microscopy with three-dimensional arbitrary trajectory (3-DAT) scanni...
We have enhanced photoacoustic microscopy with three-dimensional arbitrary trajectory (3-DAT) scanni...
Optical-resolution photoacoustic microscopy (OR-PAM) is applied to functional brain imaging in livin...
Microvascular autoregulation is an intrinsic ability of vascular beds to compensate for the fluctuat...
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...
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...
Capillaries, the smallest blood vessels, are the distal end of the vasculature where oxygen and nutr...
We propose using noninvasive longitudinal optical-resolution photoacoustic microscopy (L-ORPAM) to q...
We propose using noninvasive longitudinal optical-resolution photoacoustic microscopy (L-ORPAM) to q...
Optical-resolution photoacousticmicroscopy (OR-PAM) has been validated as a valuable tool for label-...
Optical-resolution photoacousticmicroscopy (OR-PAM) has been validated as a valuable tool for label-...
A major obstacle in studying angiogenesis is the inability to noninvasively image neovascular develo...
We have enhanced photoacoustic microscopy with three-dimensional arbitrary trajectory (3-DAT) scanni...
We have enhanced photoacoustic microscopy with three-dimensional arbitrary trajectory (3-DAT) scanni...
We have enhanced photoacoustic microscopy with three-dimensional arbitrary trajectory (3-DAT) scanni...
Optical-resolution photoacoustic microscopy (OR-PAM) is applied to functional brain imaging in livin...