Multi-Contrast Photoacoustic Computed Tomography

Abstract

Imaging of small animals has played an indispensable role in preclinical research by providing high dimensional physiological, pathological, and phenotypic insights with clinical relevance. Yet pure optical imaging suffers from either shallow penetration (up to ~1–2 mm) or a poor depth-to-resolution ratio (~3), and non-optical techniques for whole-body imaging of small animals lack either spatiotemporal resolution or functional contrast. A stand-alone single-impulse photoacoustic computed tomography (PACT) system has been built, which successfully mitigates these limitations by integrating high spatiotemporal resolution, deep penetration, and full-view fidelity, as well as anatomical, dynamical, and functional contrasts. Based on hemoglobin absorption contrast, the whole-body dynamics and large scale brain functions of rodents have been imaged in real time. The absorption contrast between cytochrome and lipid has enabled PACT to resolve MRI-like whole brain structures. Taking advantage of the distinct absorption signature of melanin, unlabeled circulating melanoma cells have been tracked in real time in vivo. Assisted by near-infrared dyes, the perfusion processes have been visualized in rodents. By localizing single-dyed droplets, the spatial resolution of PACT has been improved by six-fold in vivo. The migration of metallic-based microrobots toward the targeted regions in the intestines has been monitored in real time. Genetically encoded photochromic proteins benefit PACT in detection sensitivity and specificity. The unique photoswitching characteristics of different photochromic proteins allow quantitative multi-contrast imaging at depths. A split version of the photochromic protein has permitted PA detection of protein-protein interactions in deep-seated tumors. The photochromic behaviors have also been utilized to guide photons to form an optical focus inside live tissue. As a rapidly evolving imaging technique, PACT promises pre-clinical applications and clinical translation.