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Methods for Measuring Acoustic Power of an Ultrasonic Neurosurgical Device. Coll. (CROSBI ID 212760)

Prilog u časopisu | ostalo

Petošić, Antonio ; Ivančević, Bojan ; Svilar, Dragoljub ; Štimac, Tihomir ; Paladino, Josip ; Orešković, Darko ; Jurjević, Ivana ; Klarica, Marijan Methods for Measuring Acoustic Power of an Ultrasonic Neurosurgical Device. Coll. // Collegium antropologicum. Supplement, 35 (2011), 1; 107-113

Podaci o odgovornosti

Petošić, Antonio ; Ivančević, Bojan ; Svilar, Dragoljub ; Štimac, Tihomir ; Paladino, Josip ; Orešković, Darko ; Jurjević, Ivana ; Klarica, Marijan

engleski

Methods for Measuring Acoustic Power of an Ultrasonic Neurosurgical Device. Coll.

Measurement of the acoustic power in high- energy ultrasonic devices is complex due to occurrence of the strong cavitation in front of the sonotrode tip. In our research we used three methods for characterization of our new ultrasonic probe for neuroendoscopic procedures. The first method is based on the electromechanical characterization of the device measuring the displacement of the sonotrode tip and input electrical impedance around excitation frequency with different amounts of the applied electrical power The second method is based on measuring the spatial pressure magnitude distribution of an ultrasound surgical device produced in an anechoic tank. The acoustic reciprocity principle is used to determinate the derived acoustic power of equivalent ultrasound sources at frequency components present in the spectrum of radiated ultrasonic waves. The third method is based on measuring the total absorbed acoustic power in the restricted volume of water using the calorimetric method. In the electromechanical characterization, calculated electroacoustic efficiency factor from equivalent electrical circuits is between 40- 60%, the same as one obtained measuring the derived acoustic power in an anechoic tank when there is no cavitation. When cavitation activity is present in the front of the sonotrode tip the bubble cloud has a significant influence on the derived acoustic power and decreases electroacoustic efficiency. The measured output acoustic power using calorimetric method is greater then derived acoustic power, due to a large amount of heat energy released in the cavitation process.

ultrasound surgical device ; sonotrode tip displacement ; derived acoustic power ; output acoustic power

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Podaci o izdanju

35 (1)

2011.

107-113

objavljeno

0353-3735

Povezanost rada

Temeljne medicinske znanosti

Poveznice