Bubble cycling as the explanation of the promotion of ultrasonic cavitation in a rotating tube exposure system

Ciaravino, 1981, Pressure-mediated reduction of ultrasonically induced cell lysis, Radiat. Res., 88, 209, 10.2307/3575765 Church, 1982, The exposure vessel as a factor in ultrasonically-induced mammalian cell lysis-II. An explanation of the need to rotate exposure tubes, Ultrasound Med. Biol., 8, 299, 10.1016/0301-5629(82)90036-9 Church, 1983, The kinetics and mechanics of ultrasonically-induced cell lysis produced by non-trapped bubbles in a rotating culture tube, Ultrasound Med. Biol., 9, 385, 10.1016/0301-5629(83)90092-3 Church, 1983, The kinetics of ultrasonically-induced cell lysis produced by non-trapped bubbles in a rotating culture tube, 744 Church, 1984, On the thermal motion of small bubbles—authors reply, Ultrasound Med. Biol., 10, L378, 10.1016/0301-5629(84)90173-X Clarke, 1970, Physical and chemical aspects of ultrasonic disruption of cells, J. Acoust. Soc. Am., 47, 649, 10.1121/1.1911940 Coakley, 1971, Quantitative relationships between ultrasonic cavitation and effects upon amoebae at 1 MHz, J. Acoust. Soc. Am., 50, 1546, 10.1121/1.1912809 Graham, 1980, Cavitational bioeffects at 1.5 MHz, Ultrasonics, 18, 224, 10.1016/0041-624X(80)90125-0 Hayward, 1967, Tribonucleation of bubbles, Br. J. Appl. Phys., 18, 641, 10.1088/0508-3443/18/5/314 Hill, 1969, Biophysical effects of cavitation in a 1 MHz ultrasonic beam, 26 Kaufman, 1978, Growth retardation in Chinese Hamster V-79 cells exposed to 1 MHz ultrasound, Ultrasound Med. Biol., 4, 139, 10.1016/0301-5629(78)90039-X Maeda, 1986, Experimental studies on the suppression of cultured cell growth curves after irradiation with CW and pulsed ultrasound, IEEE Trans. Ultrason., Ferroelectrics, Frequency Control UFFC-33, 186, 10.1109/T-UFFC.1986.26813 Miller, 1982, Experimental investigation of the response of gasfilled micropores to ultrasound, J. Acoust. Soc. Am., 71, 471, 10.1121/1.387418 Miller, 1984, On the thermal motions of small bubbles, Ultrasound Med. Biol., 10, L377, 10.1016/0301-5629(84)90172-8 Miller, 1983, Further investigations of ATP release from human erythrocytes exposed to ultrasonically activated gas-filled pores, Ultrasound Med. Biol., 9, 297, 10.1016/0301-5629(83)90063-7 Morton, 1983, Subharmonic emission as an indicator of ultrasonically-induced biological damage, Ultrasound Med. Biol., 9, 629, 10.1016/0301-5629(83)90008-X NCRP, 1983, Biological Effects of Ultrasound Mechanisms and Clinical Implications Neppiras, 1976, Acoustic cavitation in a focused field in water at 1 MHz, J. Sound Vib., 45, 341, 10.1016/0022-460X(76)90393-X Saad, 1985, Possible mechanisms for the agitation-induced enhancement of acoustic cavitation in vitro, J. Acoust. Soc. Am., 78, 429, 10.1121/1.392465 Sacks, 1982, The exposure vessel as a factor in ultrasonically-induced mammalian cell lysis-I. A comparison of tube and chamber systems, Ultrasound Med. Biol., 8, 289, 10.1016/0301-5629(82)90035-7 Willard, 1953, Ultrasonically induced cavitation in water, a step-by-step process, J. Acoust. Soc. Am., 25, 669, 10.1121/1.1907161 Williams, 1982, Absence of meaningful thresholds for bioeffect studies on cell suspensions in vitro, Br. J. Cancer, 45, 192 Yosioka, 1955, Acoustic radiation pressure on a compressible sphere, Acustica, 5, 167