A method of acoustic remote palpation, capable of imaging local variations in the mechanical properties of tissue, is under investigation. In this method, focused ultrasound is used to apply localized (on the order of radiation force within tissue, and the resulting tissue displacements are mapped using ultrasonic correlation based methods. The tissue displacements are inversely proportional to the stiffness of the tissue, and thus a stiffer region of tissue exhibits smaller displacements than a more compliant region. In this paper, the feasibility of remote palpation is demonstrated experimentally using breast tissue phantoms with spherical lesion inclusions, and in vitro liver samples. A single diagnostic transducer and modified ultrasonic imaging system are used to perform remote palpation. The displacement images are directly correlated to local variations in tissue stiffness with higher contrast than the corresponding B-mode images. Relationships between acoustic beam parameters, lesion characteristics and radiation force induced tissue displacement patterns are investigated and discussed. The results show promise for the clinical implementation of remote palpation.
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July 2001
July 01 2001
On the feasibility of remote palpation using acoustic radiation force
Kathryn R. Nightingale;
Kathryn R. Nightingale
Department of Biomedical Engineering, Duke University, Box 90281, Durham, North Carolina 27708
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Mark L. Palmeri;
Mark L. Palmeri
Department of Biomedical Engineering, Duke University, Box 90281, Durham, North Carolina 27708
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Roger W. Nightingale;
Roger W. Nightingale
Department of Biomedical Engineering, Duke University, Box 90281, Durham, North Carolina 27708
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Gregg E. Trahey
Gregg E. Trahey
Department of Biomedical Engineering, Duke University, Box 90281, Durham, North Carolina 27708
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J. Acoust. Soc. Am. 110, 625–634 (2001)
Article history
Received:
October 13 2000
Accepted:
April 11 2001
Citation
Kathryn R. Nightingale, Mark L. Palmeri, Roger W. Nightingale, Gregg E. Trahey; On the feasibility of remote palpation using acoustic radiation force. J. Acoust. Soc. Am. 1 July 2001; 110 (1): 625–634. https://doi.org/10.1121/1.1378344
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