Title :
Ultrasound characterization of normal ocular tissue in the frequency range from 50 MHz to 100 MHz
Author :
Ye, S.G. ; Harasiewicz, K.A. ; Pavlin, C.J. ; Foster, F.S.
Author_Institution :
Dept. of Inf. Phys., Nanjing Univ., China
Abstract :
The ultrasonic properties of ocular tissues including sclera, cornea, ciliary body and iris have been quantitatively evaluated over the frequency range from 50 MHz to 100 MHz at 37/spl deg/C. Measurements were made with a wideband 60 MHz PVDF copolymer transducer in conjunction with a C-scan microscopy system developed in the authors´ laboratory. Using this system, high resolution overview images were produced to identify homogeneous tissue regions for detailed quantitative analysis. The speed of sound for the four eye tissues ranged from 1542 m/s for iris to 1622 m/s for sclera. At 50 MHz the attenuation coefficient ranged from 1.3 dB/mm for cornea to 4.3 dB/mm for sclera. Scleral tissue also had the highest backscatter coefficient (0.0157 Sr/sup -1/ mm/sup -1/), while iris had the lowest (0.00184 Sr/sup -1/ mm/sup -1/). The measured ultrasonic properties are qualitatively related to their histological structure and imaging characteristics.<>
Keywords :
bioacoustics; eye; ultrasonic absorption; ultrasonic velocity; 37 C; 50 to 100 MHz; C-scan microscopy system; PVDF copolymer transducer; attenuation coefficient; backscatter coefficient; ciliary body; cornea; frequency range; high resolution overview images; histological structure; imaging characteristics; iris; normal ocular tissue; sclera; speed of sound; ultrasonic properties; ultrasound characterization; Acoustic transducers; Cornea; Frequency; Iris; Microscopy; Strontium; Ultrasonic imaging; Ultrasonic transducers; Ultrasonic variables measurement; Wideband;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
