Browsing by Subject "Photoacoustic tomography"

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    Bond-selective photoacoustic imaging by converting molecular vibration into acoustic waves
    (Elsevier, 2016-03) Hui, Jie; Li, Rui; Phillips, Evan H.; Goergen, Craig J.; Sturek, Michael; Cheng, Ji-Xin; Department of Cellular & Integrative Physiology, IU School of Medicine
    The quantized vibration of chemical bonds provides a way of detecting specific molecules in a complex tissue environment. Unlike pure optical methods, for which imaging depth is limited to a few hundred micrometers by significant optical scattering, photoacoustic detection of vibrational absorption breaks through the optical diffusion limit by taking advantage of diffused photons and weak acoustic scattering. Key features of this method include both high scalability of imaging depth from a few millimeters to a few centimeters and chemical bond selectivity as a novel contrast mechanism for photoacoustic imaging. Its biomedical applications spans detection of white matter loss and regeneration, assessment of breast tumor margins, and diagnosis of vulnerable atherosclerotic plaques. This review provides an overview of the recent advances made in vibration-based photoacoustic imaging and various biomedical applications enabled by this new technology.
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    Cylindrical illumination with angular coupling for whole-prostate photoacoustic tomography
    (Optical Society of America, 2019-02-22) Bungart, Brittani; Cao, Yingchun; Yang-Tran, Tiffany; Gorsky, Sean; Lan, Lu; Roblyer, Darren; Koch, Michael O.; Cheng, Liang; Masterson, Timothy; Cheng, Ji-Xin; Department of Medicine, IU School of Medicine
    Current diagnosis of prostate cancer relies on histological analysis of tissue samples acquired by biopsy, which could benefit from real-time identification of suspicious lesions. Photoacoustic tomography has the potential to provide real-time targets for prostate biopsy guidance with chemical selectivity, but light delivered from the rectal cavity has been unable to penetrate to the anterior prostate. To overcome this barrier, a urethral device with cylindrical illumination is developed for whole-prostate imaging, and its performance as a function of angular light coupling is evaluated with a prostate-mimicking phantom.