Principles and applications of ultrasound backscatter microscopy

Foster, F. Stuart; Lockwood, G.R.; Ryan, Linda; Harasiewicz, Kasia; Berube, L.; Rauth, A.M.

doi:10.1109/58.238115

Cited by 193 publications

(78 citation statements)

References 22 publications

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“…4(F), one-way acoustic intensity map of the focused transducer was simulated with central frequency at 48 MHz and bandwidth of 30 MHz. The acoustic attenuation was estimated as the case of typical soft tissues with 0.5 dB/cm-MHz [32]. …”

Section: Non-uniform Response Along Depth Dimension Pa Measurementmentioning

confidence: 99%

Characterizing intestinal inflammation and fibrosis in Crohn’s disease by photoacoustic imaging: feasibility study

Lei

Johnson

Liu

et al. 2016

Biomed. Opt. Express

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Abstract:The pathology of Crohn's disease (CD) is characterized by obstructing intestinal strictures because of inflammation (with high levels of hemoglobin), fibrosis (high levels of collagen), or a combination of both. The accurate characterization of the strictures is critical for the management of CD. This study examines the feasibility of characterizing intestinal strictures by Photoacoustic imaging (PAI) without extrapolation from superficial biopsies. Ex vivo normal rat colon tissue, inflammatory and fibrotic intestinal strictures in rat trinitrobenzene sulfonic acid (TNBS) model were first differentiated by a PA-US parallel imaging system. Surgically removed human intestinal stricture specimens were afterwards imaged by a multiwavelength acoustic resolution PA microscope (ARPAM). The experiment results suggest that PAI is a potential tool for the diagnosis of the diseased conditions in intestinal strictures. 2166-2185 (1990). 14. R. Richards-Kortum and E. Sevick-Muraca, "Quantitative optical spectroscopy for tissue diagnosis," Annu. Rev.Phys. Chem. 47(1), 555-606 (1996). 15. H. Messmann, E. Endlicher, G. Freunek, P. Rümmele, J. Schölmerich, and R. Knüchel, "Fluorescence endoscopy for the detection of low and high grade dysplasia in ulcerative colitis using systemic or local 5-aminolaevulinic acid sensitisation," Gut 52 (

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Section: Non-uniform Response Along Depth Dimension Pa Measurementmentioning

confidence: 99%

Characterizing intestinal inflammation and fibrosis in Crohn’s disease by photoacoustic imaging: feasibility study

Lei

Johnson

Liu

et al. 2016

Biomed. Opt. Express

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“…Among different imaging modalities, ultrasonography is widely used because it is a nonionizing, cost-effective and portable imaging modality that could obtain an anatomical map of the tissue with excellent spatial and temporal resolution at reasonable penetration depth [1]. However, the sensitivity and specificity of ultrasound imaging are limited due to insufficient contrast between normal and pathologically transformed tissue [2].…”

Section: Introductionmentioning

confidence: 99%

Magneto-photo-acoustic imaging

Qu¹,

Mallidi²,

Mehrmohammadi³

et al. 2011

Biomed. Opt. Express

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Magneto-photo-acoustic imaging, a technique based on the synergy of magneto-motive ultrasound, photoacoustic and ultrasound imaging, is introduced. Hybrid nanoconstructs, liposomes encapsulating gold nanorods and iron oxide nanoparticles, were used as a dual-contrast agent for magneto-photo-acoustic imaging. Tissue-mimicking phantom and macrophage cells embedded in ex vivo porcine tissue were used to demonstrate that magneto-photo-acoustic imaging is capable of visualizing the location of cells or tissues labeled with dual-contrast nanoparticles with sufficient contrast, excellent contrast resolution and high spatial resolution in the context of the anatomical structure of the surrounding tissues. Therefore, magneto-photo-acoustic imaging is capable of identifying the nanoparticle-labeled pathological regions from the normal tissue, providing a promising platform to noninvasively diagnose and characterize pathologies. Milner, and S. Emelianov, "Imaging of iron oxide nanoparticles using magneto-motive ultrasound," ©2011 Optical Society of America

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“…The beam width is in turn dependent on the central frequency and f-number of the focused ultrasonic transducer. [10][11][12] For the 25 MHz transducer used in our experiments, the spatial resolution within the sensor plane was approximately 120 m. Resolution on the order of few micrometers can be obtained using low f-number, high frequency ultrasound transducers.…”

Section: Discussionmentioning

confidence: 99%

Photoacoustic technique to measure beam profile of pulsed laser systems

Mallidi

Emelianov

2009

Review of Scientific Instruments

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The beam profiles of pulsed lasers are currently measured using either complementary metal oxide semiconductor ͑CMOS͒ or charge coupled device ͑CCD͒ cameras. Despite providing high-resolution beam profiles, these devices cannot work with high power lasers. If additional optical attenuators are used, beam distortions may occur. In this paper we demonstrate a high-resolution photoacoustic technique capable of measuring the beam profile of pulsed lasers. The beam profiles of a pulsed neodymium-doped yttrium aluminium garnet ͑Nd:YAG͒ laser and a pulsed optical parametric oscillator ͑OPO͒ laser system were measured using a polydimethylsiloxane film and a single element high-frequency ultrasonic transducer. The advantages and limitations of the developed photoacoustic technique are discussed.

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Principles and applications of ultrasound backscatter microscopy

Cited by 193 publications

References 22 publications

Characterizing intestinal inflammation and fibrosis in Crohn’s disease by photoacoustic imaging: feasibility study

Characterizing intestinal inflammation and fibrosis in Crohn’s disease by photoacoustic imaging: feasibility study

Magneto-photo-acoustic imaging

Photoacoustic technique to measure beam profile of pulsed laser systems

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