Optimization of the laser irradiation pattern in a high frame rate integrated photoacoustic / ultrasound (PAUS) imaging system

To integrate real-time photoacoustics (PA) into ultrasound (US) scanners and accelerate clinical translation of combined PAUS imaging, we previously developed a system using a portable, low-cost, low pulse energy, high-repetition rate laser (∼1kHz) with a 1D galvo-mirror for rapid laser beam scanning over the imaging area. However, the frame rate and pulse energy are limited because of regulations on the radiance (1 W/cm 2 ). Therefore, a laser scan scheme needs to be optimized to provide high frame rate within this safety limit. In addition, the laser light should be evenly distributed to minimize any artifacts caused by the scanning approach. In this paper, we calculated the laser light distribution using 3D Monte Carlo simulation and further developed the system to scan the laser beam in elevation as well as laterally using a 2-dimensional galvo-mirror scanner to achieve higher frame rates within the radiance safety limit. Insertion of a needle into chicken breast tissue was used to demonstrate our optimized scan scheme.