Resolution improvement of point targets by real-time phase aberration correction: in vivo results

Resolution improvement of point targets by real-time phase aberration correction: in vivo results

Ten patients with suspected microcalcifications were scanned with a 9 MHz, 8/spl times/96 1.75D array transducer and Siemens Antares scanner. Aberration profiles were estimated by cross correlation of individual element echo signals using a least-squares algorithm over a 3/spl times/5 element neighb...

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Bibliographic Details
Published in:IEEE Ultrasonics Symposium, 2004 Vol. 1; pp. 235 - 238 Vol.1
Main Authors: McAleavey, S.A., Dahl, J.J., Soo, M.S., Pinton, G.F., Trahey, G.E.
Format: Conference Proceeding
Language:English
Published: IEEE 2004
Subjects:
Biomedical engineering
Biomedical imaging
Breast
Brightness
Delay estimation
Focusing
In vivo
Medical treatment
Phased arrays
Transducers
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Summary:Ten patients with suspected microcalcifications were scanned with a 9 MHz, 8/spl times/96 1.75D array transducer and Siemens Antares scanner. Aberration profiles were estimated by cross correlation of individual element echo signals using a least-squares algorithm over a 3/spl times/5 element neighborhood. Transmit and receive beamformer delays were modified to compensate for the estimated profile. Single video frames captured at times just before and just after application of aberration correction were compared. The apparent change in microcalcification width was estimated with sub-pixel precision by comparing upsampled image lines at a threshold of 80%. The average reduction in image width was 39.7%. The average brightness increase was only 1.9%. Offline processing of RF data captured on the same patients shows a pre-log compression increase in envelope amplitude of 39% after off-line aberration correction using the same algorithm. The relatively small improvement in brightness during online correction is due to logarithmic compression and video-saturation effects.
ISBN:9780780384125
0780384121
ISSN:1051-0117
DOI:10.1109/ULTSYM.2004.1417710