"2"^^ . . "RIV/00216224:14110/07:00033444!RIV10-MSM-14110___" . "56" . . . "Mornstein, Vojt\u011Bch" . "1"^^ . "CZ - \u010Cesk\u00E1 republika" . "7"^^ . "Use of chemical dosimetry for comparison of ultrasound and ionising radiation of cavitation" . "RIV/00216224:14110/07:00033444" . . . "456916" . . "Kratochv\u00EDl, Bohdan" . "Physiological Research" . "Suppl.1" . "Use of chemical dosimetry for comparison of ultrasound and ionising radiation of cavitation" . "Use of chemical dosimetry for comparison of ultrasound and ionising radiation of cavitation"@en . . "S" . "cavitation; dosimetry; ultrasound; ionising radiation"@en . . "14110" . . . . . "A comparison of the effects of ultrasound (US) produced by US apparatuses in biological systems is one of the basic problems when studying US cavitation effects. A possibility for how to compare these effects are the indirect methods which use quantities characterizing the interaction of ionizing radiation with matter and which also converts these quantities to one common physical quantity. The first method employed a dosimeter composed of 50 % chloroform and 50 % re-distilled water (Taplin dosimeter). The other method used a iodide dosimeter - 0.5 M KI solution. After irradiation or US exposure, chemical changes occurred in both dosimeters, which were proportional to the exposure. The UZD 21 US disintegrator (22 kHz, 50 % power output) was used as a low frequency US source, and the BTL-07 therapeutic device (1 MHz, intensity of 2 W/cm2) was used as a high-frequency US source. For comparison, a 60Co gamma source was applied (gamma-rays 1.17 and 1.33 MeV, 14 PBq)." . . "Use of chemical dosimetry for comparison of ultrasound and ionising radiation of cavitation"@en . "A comparison of the effects of ultrasound (US) produced by US apparatuses in biological systems is one of the basic problems when studying US cavitation effects. A possibility for how to compare these effects are the indirect methods which use quantities characterizing the interaction of ionizing radiation with matter and which also converts these quantities to one common physical quantity. The first method employed a dosimeter composed of 50 % chloroform and 50 % re-distilled water (Taplin dosimeter). The other method used a iodide dosimeter - 0.5 M KI solution. After irradiation or US exposure, chemical changes occurred in both dosimeters, which were proportional to the exposure. The UZD 21 US disintegrator (22 kHz, 50 % power output) was used as a low frequency US source, and the BTL-07 therapeutic device (1 MHz, intensity of 2 W/cm2) was used as a high-frequency US source. For comparison, a 60Co gamma source was applied (gamma-rays 1.17 and 1.33 MeV, 14 PBq)."@en . "0862-8408" . . . "[F3E4E1E0DEB3]" .