DocumentCode :
2977633
Title :
Superresolution ultrasound for imaging and microscopy
Author :
Clement, Gregory T. ; Hynynen, Kullervo
Author_Institution :
Dept. of Radiol., Brigham & Women´´s Hosp., Boston, MA, USA
Volume :
3
fYear :
2004
fDate :
23-27 Aug. 2004
Firstpage :
1832
Abstract :
A practical method for sub-millimeter imaging in vivo would provide considerable benefits to both laboratory investigations and clinical diagnosis. Consequently, numerous imaging modalities have sought to achieve this high-resolution. Ultrasound is a viable candidate for such imaging, due to its ability to penetrate deeply and safely into tissues. However, previous studies have approached the problem by using increasingly higher ultrasound frequencies. The unfortunate tradeoff for higher frequencies is a simultaneous increase in the level of ultrasound attenuation, which has allowed imaging only a few millimeters deep. Our investigation proposes a new method that could allow sub-millimeter in vivo imaging at substantially lower frequencies than previously reported, thus allowing significantly greater depth penetration. To achieve this, we introduce a new superresolution imaging technique designed to resolve objects significantly smaller than the imaging wavelength. Our method exploits unique properties of ultrasound in order to provide additional information than achieved with related optical techniques. Presently, we outline the method and then demonstrate the procedure by reconstructing images of a human hair, which is more than one order of magnitude smaller then the source wavelength.
Keywords :
acoustic microscopy; biological tissues; biomedical ultrasonics; image reconstruction; image resolution; submillimetre wave imaging; ultrasonic imaging; depth penetration; high-resolution imaging; human hair; image reconstruction; in vivo imaging; sub-millimeter imaging; superresolution imaging technique; superresolution ultrasound; tissues; ultrasonic imaging; ultrasonic microscopy; ultrasound attenuation; Attenuation; Clinical diagnosis; Frequency; High-resolution imaging; Image resolution; In vivo; Laboratories; Microscopy; Optical imaging; Ultrasonic imaging;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Ultrasonics Symposium, 2004 IEEE
ISSN :
1051-0117
Print_ISBN :
0-7803-8412-1
Type :
conf
DOI :
10.1109/ULTSYM.2004.1418185
Filename :
1418185
Link To Document :
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