Wide‐field monitoring and real‐time local recording of microvascular networks on small animals with a dual‐raster‐scanned photoacoustic microscope

Abstact Photoacoustic microscopy (PAM) provides a new method for the imaging of small‐animals with high‐contrast and deep‐penetration. However, the established PAM systems have suffered from a limited field‐of‐view or imaging speed, which are difficult to both monitor wide‐field activity of organ and record real‐time change of local tissue. Here, we reported a dual‐raster‐scanned photoacoustic microscope (DRS‐PAM) that integrates a two‐dimensional motorized translation stage for large field‐of‐view imaging and a two‐axis fast galvanometer scanner for real‐time imaging. The DRS‐PAM provides a flexible transition from wide‐field monitoring the vasculature of organs to real‐time imaging of local dynamics. To test the performance of DRS‐PAM, clear characterization of angiogenesis and functional detail was illustrated, hemodynamic activities of vasculature in cerebral cortex of a mouse were investigated. Furthermore, response of tumor to treatment were successfully monitored during treatment. The experimental results demonstrate the DRS‐PAM holds the great potential for biomedical research of basic biology.