Details Details PDF BIBTEX RIS Title Acoustic Estimation of Resonance Frequency and Sonodestruction of SonoVue Microbubbles Journal title Archives of Acoustics Yearbook 2015 Volume vol. 40 Issue No 3 Authors Jurkonis, Rytis ; Lamanauskas, Nerijus ; Šatkauskas, Saulius Keywords SonoVue ; microbubble ; loss of amplitude ; Attenuation coefficient ; resonance frequency ; sonodestruction Divisions of PAS Nauki Techniczne Coverage 293-300 Publisher Polish Academy of Sciences, Institute of Fundamental Technological Research, Committee on Acoustics Date 2015[2015.01.01 AD - 2015.12.31 AD] Type Artykuły / Articles Identifier DOI: 10.1515/aoa-2015-0032 Source Archives of Acoustics; 2015; vol. 40; No 3; 293-300 References Chen (2002), Pressure - dependent attenuation in ultrasound contrast agents Ultrasound, Med Biol, 7, 1041. ; Luan (2012), van der Ver - sluis de Acoustical properties of individual liposome - loaded microbubbles Ultrasound, Med Biol, 20, 2174. ; Bouakaz (1999), de Noninvasive measurement of the hydrostatic pressure in a fluid - filled cavity based on the disappear - ance time of micrometer - sized free gas bubbles Ultra - sound Med, Biol, 3, 1407. ; Stolz (2002), Allendo rfer Sonographic harmonic grey scale imaging of brain perfusion : scope of a new method demonstrated in selected cases Ultraschall, Med, 26, 320. ; Tang (2007), Frequency and pressure dependent attenuation and scattering by mi - crobubbles Ultrasound, Med Biol, 30, 164. ; Krasovitski (2004), Ultrasound attenuation by encapsulated mi - crobubbles : time and pressure effects Ultrasound Med, Biol, 17, 793. ; Tang (2005), Pressure - dependent attenuation with microbubbles at low mechanical index Ultrasound, Med Biol, 31, 377. ; Sarkar (2005), Fors - berg Characterization of ultrasound con - trast microbubbles using in vitro experiments and vis - cous and viscoelastic interface models for encapsula - tion, Soc Am, 25, 539. ; Dayton (1997), Ferra - ra A preliminary evaluation of the ef - fects of primary and secondary radiation forces on acoustic contrast agents IEEE Fer - roelectr Freq Control, Trans Ultrason, 8, 1264, doi.org/10.1109/58.656630 ; Tamosiunas (2012), Luko - sevicius Adjustment of ultrasound exposure duration to microbubble sonodestruction kinetics for optimal cell sonoporation in vitro, Technol Cancer Res Treat, 29, 375. ; Goertz (2007), de van der Attenuation and size distribution measure - ments of Definity and manipulated Definity popula - tions Ultrasound, Med Biol, 15, 1376. ; Goertz (2006), de van der High frequency nonlinear scatter - ing from a micrometer to submicrometer sized lipid en - capsulated contrast agent Ultrasound, Med Biol, 16, 569. ; Goertz (2005), Karsha - fian High Frequency Nonlinear B - Scan Imaging of Microbubble Contrast Agents IEEE Ferroelectr Freq Control, Trans Ultrason, 14, 65, doi.org/10.1109/TUFFC.2005.1397351 ; Sun (2014), In vitro acoustic characterization of three phos - pholipid ultrasound contrast agents from to MHz Ultrasound, Med Biol, 27, 541. ; Tortoli (2000), Doppler spectra from contrast agents crossing an ultra - sound field IEEE Freq Control, Trans Ultrason Ferroelectr, 33, 716, doi.org/10.1109/58.842061 ; Dicker (2013), Wal - lace Influence of shell com - position on the resonance frequency of microbubble con - trast agents Ultrasound, Med Biol, 10, 1292. ; Casciaro (2007), Experimental inves - tigations of nonlinearities and destruction mechanisms of an experimental phospholipid - based ultrasound con - trast agent Invest, Radiol, 5, 95. ; Fan (2014), Character - ization of the dynamic activities of a population of microbubbles driven by pulsed ultrasound exposure in sonoporation Ultrasound, Med Biol, 13, 1260. ; Emmer (2009), van de Pressure - dependent attenuation and scattering of phospholipid - coated mi - crobubbles at low acoustic pressures Ultrasound Med, Biol, 11, 102. ; Escoffre (2013), Microbubble Atten - uation and Destruction : Are They Involved in Sonopo - ration Efficiency ? IEEE Ferroelectr Freq Control, Trans Ultrason, 12, 46.