Acoustic response of cartilage during laser-mediated stress relaxation

In this study, laser reshaping of porcine septal cartilage was performed using an Nd:YAG laser (/spl lambda/=1.32 /spl mu/m), while changes in acoustic waves were observed, in an attempt to develop technique to monitor the reshaping process. Concurrent measurements of strain (during tensile compress...

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Bibliographic Details
Published in:IEEE journal of selected topics in quantum electronics 2005-07, Vol.11 (4), p.846-853
Main Authors: Slater, J.G., Protsenko, D.E., Carbone, N., Jones, J.P., Wong, B.J.F.
Format: Article
Language:English
Subjects:
Acoustic measurements
Acoustic waves
Acoustics
Amplitudes
Cartilage
Correlation analysis
Irradiation
Laser cartilage reshaping
Laser transitions
Lasers
Monitoring
Monitors
Nd:YAG
Strain measurement
Stress measurement
Stress relaxation
Temperature measurement
Tensile strain
Tensile stress
ultrasonic acoustic monitoring of stress relaxation
Ultrasonic variables measurement
ultrasound
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Summary:In this study, laser reshaping of porcine septal cartilage was performed using an Nd:YAG laser (/spl lambda/=1.32 /spl mu/m), while changes in acoustic waves were observed, in an attempt to develop technique to monitor the reshaping process. Concurrent measurements of strain (during tensile compression and tension, as well as flexure), temperature, and a 5-MHz ultrasonic signal were recorded during laser irradiation (/spl lambda/=1.32 /spl mu/m, 4 W, 13 s). The sample was set up in a water bath to enhance acoustic coupling. From the ultrasonic signal, both time of flight (TOF) and signal amplitude as reflected from the back wall of the cartilage were extracted and correlated with temperature and strain measurements. The onset of stress relaxation of the cartilage generally occurred between 50/spl deg/C and 60/spl deg/C. While TOF measurements indicated a generally constant increase in the speed of sound of the cartilage during the irradiation period, the amplitude of the reflected acoustic signal correlated directly with the stress relaxation of the cartilage. At the point of stress relaxation, the amplitude of the acoustic signal consistently attenuated to roughly 50% of its original magnitude.
ISSN:1077-260X
1558-4542
DOI:10.1109/JSTQE.2005.857713