Thermoacoustic Molecular Imaging of Small Animals

Abstract: We have designed, constructed, and tested a thermoacoustic computed tomography (TCT) scanner for imaging optical absorption in small animals in three dimensions. The device utilizes pulsed laser irradiation (680 -1064 nm) and a unique, 128-element transducer array. We quantified the isotropic spatial resolution of this scanner to be 0.35 mm. We describe a dual-wavelength subtraction technique for isolating optical dyes with TCT. Phantom experiments demonstrate that we can detect 5 fmol of a near-infrared dye (… Show more

“…Recently, there has been considerable eVort to establish PAT as a tool in preclinical research. Various groups have built small animal imagers and have achieved promising results, for instance imaging of the vasculature in the brain (Wang et al 2003;Kruger et al 2003), and promising animal studies (Wang et al 2003Zhang et al 2006), and methods for obtaining accurate, spatially resolved values of blood oxygenation (Laufer et al 2005;Wang et al 2006;Zhang et al 2006). High-resolution photoacoustic imaging is ideally useful for screening of biological samples in the range of millimetres up to some centimetres, which makes it ideally suited to gain complementary information in small animal imaging.…”

Molecular imaging with nanoparticles: giant roles for dwarf actors

“…Recently, there has been considerable eVort to establish PAT as a tool in preclinical research. Various groups have built small animal imagers and have achieved promising results, for instance imaging of the vasculature in the brain (Wang et al 2003;Kruger et al 2003), and promising animal studies (Wang et al 2003Zhang et al 2006), and methods for obtaining accurate, spatially resolved values of blood oxygenation (Laufer et al 2005;Wang et al 2006;Zhang et al 2006). High-resolution photoacoustic imaging is ideally useful for screening of biological samples in the range of millimetres up to some centimetres, which makes it ideally suited to gain complementary information in small animal imaging.…”

Molecular imaging with nanoparticles: giant roles for dwarf actors

“…These changes indicate different forms of angiogenic influence on oxygen and drug delivery over time with a spatially coherent revascularization or recovery approaching levels consistent with control tumors. Future work combining measurements of tumor physiology with those of local hemoglobin status (e.g., photoacoustic computed tomographic spectroscopy [71,72]) will investigate a method to better differentiate the form of hypoxia based on these longitudinal changes in perfusion and f p .…”

Monitoring the Longitudinal Intra-tumor Physiological Impulse Response to VEGFR2 Blockade in Breast Tumors Using DCE-CT

“…OA imaging with hemoglobin was shown to greatly facilitate blood dynamics related to brain research [32][33][34] and help with visualizing brain structure and lesions [32], delineating tumor vasculature [35], monitoring hemodynamics, measuring microvascular blood flow [36], and imaging whole body of animals in vivo and ex vivo [37,38].…”

Nanoparticles as Contrast Agents for Optoacoustic Imaging