Details
Title
Theory of Red Blood Cell Oscillations in an Ultrasound FieldJournal title
Archives of AcousticsYearbook
2017Volume
vol. 42Numer
No 1Authors
Divisions of PAS
Nauki TechnicznePublisher
Committee on Acoustics PAS, PAS Institute of Fundamental Technological Research, Polish Acoustical SocietyDate
2017Identifier
ISSN 0137-5075 ; eISSN 2300-262XReferences
Mazzawi (2015), Bubble - like response of living blood cells and micropar - ticles in an ultrasound field, Acta Physica Polonica A, 127. ; Doinikov (2007), Maxwell rhe - ological model for lipid - shelled ultrasound microbubble contrast agents of the Acoustical, Journal Society of America, 121. ; Li (2013), Yield strength of human erythrocyte membranes to impulsive stretching, Biophysical Journal, 105. ; van Wamel (2006), Em - mer ten de Vibrating microbubbles poking individual cells : drug transfer into cells via sonoporation of Controlled Release, Journal, 112. ; Church (1995), The effects of an elastic solid surface layer on the radial pulsations of gas bubbles of the Acoustical, Journal Society of America, 97. ; Tran (1984), - Son Determination of red blood cell membrane viscosity from rheoscopic observations of tank - treading motion, Biophysical Journal, 46, 65, doi.org/10.1016/S0006-3495(84)83999-5 ; Kotopoulis (2015), Acoustically active antibubbles, Acta Physica Polonica A, 127. ; Kudo (2009), Sonopo - ration by single - shot pulsed ultrasound with microbub - bles adjacent to cells, Biophysical Journal, 12, 96. ; Krasovitski (2011), Intramembrane cavitation as a unifying mechanism for ultrasound - induced bioeffects Procee - dings of the National Academy of, Sciences, 108. ; Prentice (2005), Membrane disruption by optically controlled microbubble cavitation, Nature Physics, 1.DOI
10.1515/aoa-2017-0013