Brain Serotonin Content: Physiological Regulation by Plasma Neutral Amino Acids

In this study, we monitor the progress of vasculature in early tumor growth using photoacoustic imaging over a 20 day period after subcutaneous inoculation of breast cancer tumor cells in a mouse. With 532 nm laser pulses employed as an irradiation source, the photoacoustic images were obtained through the photoacoustic signals received by a hydrophone in orthogonal mode. The morphological characteristics of vasculature in tumor region are clearly resolved in the photoacoustic images, and the change in structure as well as the increase in density can be identified. Moreover, the average photoacoustic signal strength of vasculature in tumor region, which is highly correlated with the total hemoglobin concentration of blood, is enhanced during early tumor growth. These results indicate the feasibility of detecting early stage tumor and monitoring the progress of anti-angiogenic therapy by photoacoustic imaging.

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Functional imaging of cerebrovascular activities in small animals using high‐resolution photoacoustic tomography

Yang

et al. 2007

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Photoacoustic imaging (PAI) is a noninvasive, nonionizing modality based on the differences in light absorption of various biological tissues. PAI utilizes the endogenous contrast characteristics of traditional optical imaging, while benefiting from high spatial resolution of the ultrasound imaging. A PAI system was developed to reconstruct the two-dimensional cross section image and to visualize the cerebrovascular activities of mouse in vivo. The spatial resolution of the PAI system was determined to be 0.110 mm by a two-point-source phantom with the Rayleigh criterion. The potential applications of the system were clearly demonstrated by successfully mapping a traumatic lesion in the mouse brain cerebral cortex, by its ability to monitor physiological changes in the brain due to carotid ligation and drug stimulation, and two-dimensional sliced images of a traumatic mouse brain at different depths were also provided. Our experimental results indicate that PAI has the potential for studying of traumatic brain injury and physiological functions of the brain.

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Noninvasive monitoring of traumatic brain injury and post-traumatic rehabilitation with laser-induced photoacoustic imaging

Yang¹,

Xing

Lao³

et al. 2007

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In vivo photoacoustic imaging of subcutaneous vasculature and vascular anomalies in small animals

Lao

Zhou

Wang

2008

Eur. Phys. J. Appl. Phys.

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A Photoacoustic Tomography System Based on a Double-Ring Sensor with a Narrow Angular Aperture

Wang

Xing

et al. 2007

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Yeqi Lao

Noninvasive photoacoustic imaging of the developing vasculature during early tumor growth

Functional imaging of cerebrovascular activities in small animals using high‐resolution photoacoustic tomography

Noninvasive monitoring of traumatic brain injury and post-traumatic rehabilitation with laser-induced photoacoustic imaging

In vivo photoacoustic imaging of subcutaneous vasculature and vascular anomalies in small animals

A Photoacoustic Tomography System Based on a Double-Ring Sensor with a Narrow Angular Aperture

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