Characterizing biological tissue using scanning laser acoustic microscopy: SLAM technique offers high resolution for determining the properties of individual layers

J. E. Assentoft; C. S. Jørgensen; H. Gregersen; L. L. Christensen; J. C. Djurhuus; W. D. O'Brien

doi:10.1109/51.482793

Characterizing biological tissue using scanning laser acoustic microscopy: SLAM technique offers high resolution for determining the properties of individual layers

J. E. Assentoft, C. S. Jørgensen, H. Gregersen, L. L. Christensen, J. C. Djurhuus, W. D. O'Brien

Carle Illinois College of Medicine

Research output: Contribution to journal › Article › peer-review

Original language	English (US)
Pages (from-to)	42-45
Number of pages	4
Journal	IEEE Engineering in Medicine and Biology Magazine
Volume	15
Issue number	1
DOIs	https://doi.org/10.1109/51.482793
State	Published - 1996

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Biomedical Engineering

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10.1109/51.482793

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Assentoft, J. E., Jørgensen, C. S., Gregersen, H., Christensen, L. L., Djurhuus, J. C., & O'Brien, W. D. (1996). Characterizing biological tissue using scanning laser acoustic microscopy: SLAM technique offers high resolution for determining the properties of individual layers. IEEE Engineering in Medicine and Biology Magazine, 15(1), 42-45. https://doi.org/10.1109/51.482793

Characterizing biological tissue using scanning laser acoustic microscopy: SLAM technique offers high resolution for determining the properties of individual layers. / Assentoft, J. E.; Jørgensen, C. S.; Gregersen, H. et al.
In: IEEE Engineering in Medicine and Biology Magazine, Vol. 15, No. 1, 1996, p. 42-45.

Research output: Contribution to journal › Article › peer-review

Assentoft, JE, Jørgensen, CS, Gregersen, H, Christensen, LL, Djurhuus, JC & O'Brien, WD 1996, 'Characterizing biological tissue using scanning laser acoustic microscopy: SLAM technique offers high resolution for determining the properties of individual layers', IEEE Engineering in Medicine and Biology Magazine, vol. 15, no. 1, pp. 42-45. https://doi.org/10.1109/51.482793

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author = "Assentoft, {J. E.} and J{\o}rgensen, {C. S.} and H. Gregersen and Christensen, {L. L.} and Djurhuus, {J. C.} and O'Brien, {W. D.}",

note = "Funding Information: lines shift to the right, entering the muscu-In the interference image, the interference Acknowledgments lar coat from the coupling medium, and a The authors acknowledge financial as- small shift to the left may be seen when it sistance from NIH grants CA09067 and enters the mucosa (Fig. 2c). This relation-HD2 1867 and from the University of Ilh- ship suggests that the speed of sound is nois Value-added Research Opportunities higher in the muscle coat than in the mu-Program and Karen Elise Jensens Fond, cosa, which is also the case: In the former Copenhagen, Denmark. The technical as- speed is 1635 k 4 and in the latter 1580 f sistance from Dr. Amjad A. Safvi, Ms. Jia 6 m s-l (p<0.05). The attenuation coeffi- Yao and Professor James F. Zachary at the cient for the wall in toto is 112 dB mm{\textquoteright} University of Illinois is also acknow- (r = 0.94). SAM Laboratory, Institute of Experimen-ledged. Jens Kristian Poulsen, M.Sc.,",

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Characterizing biological tissue using scanning laser acoustic microscopy: SLAM technique offers high resolution for determining the properties of individual layers

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