• The Journal of Korean Physical Therapy
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• v.18 no.1
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• pp.75-82
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• 2006

Purpose: This study conducted the following experiment to examine transdermal permeation effects or 500 KHz ultrasound with lidocaine HCl. Methods; First, to experiment skin permeation enhancement effects of 500 KHz ultrasound frequency, it produced apparatus and transducer of 500 KHz ultrasound and Franz diffusion cell for skim permenation experiment suitable to purposes of the experiment. Transdermal permeation experiment applied Lidocaine HCL gel to skin of hairless mouse depending on ultrasound frequency and duty cycle and analyzed permeation ratio with HPLC. Results: As a result of fixing lidocaine HCl gel at the same intensity with pulsed mode and continuous mode and comparing transdermal permeation ratio by frequency, transdermal permeation ratio was increased at 500 KHz ultrasound and remarkably increased at continuous ultrasound. It was found that 1 MHz and 500 KHz ultrasound in transdermal permeation experiment enhanced transdermal permeation of lidocaine HCl. In particular, transdermal permeation of 500 KHz using lidocaine HCl gel was highest. Conclusion: However, researches considering various frequencies, intensities and application hours in low frequency areas including 500 KHz ultrasound are needed to increase deep permeation or drugs.

• Journal of Sensor Science and Technology
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• v.20 no.2
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• pp.124-130
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• 2011

In this study, in order to evaluate the yield of bubble by ultrasonic cavitation in HIFU sonication, the bubble image analysis was performed. The changing phenomenon of cavitation effect according to the sonication condition was discussed by analyzing the bubble image. Especially the appearance of bubble cloud, the size of micro-bubble, and the yield of bubble were considered. The 500 KHz and 1.1 MHz concave type ultrasonic transducers were used for HIFU sonication. Computer controlled digital camera was used to obtain the bubble image, and the binary image processing(binarization coefficient : 0.15) was performed to analyze them. In results of 500 KHz and 1.1 MHz transducer, the area of bubble cloud was increased in proportion to the rise in sonication intensity($R^2$ : 0.7031 and 0.811). The mean size of single microbubble was measured as 98.18 um in 500 KHz sonication, and 63.38 um in 1.1 MHz sonication. In addition, the amount of produced bubble was increased in proportion to sonication intensity. Through the result of this study and further study for variable image processing method, the quantitative evaluation of ultrasonic cavitation effects in HIFU operation could be possible with the linearity associated with the sonication conditions.