[Letölthető változat]
6. Irodalomjegyzék 1.
Ahmed, F. I. K. – Russel, C. (1975): Synergism between
ultrasonic waves and hydrogen peroxide in the killing of microorganisms. J.
Appl. Bacteriol. Vol. 39., pp. 31. - 40. 2.
Alliger, H. (1975): Ultrasonic disruption. Am. Lab.
Vol. 10., pp. 75-85. 3.
Barnett, S. B. – Miller, M. W. – Cox, C. – Carstensen,
E. L. (1988): Increased sister chromatid exchanges in Chinese hamster ovary
cells exposed to high intensity pulsed ultrasound. Ultrasound Med. Biol. Vol.
14, pp. 397-403. 4.
Benes, E. - Grösschl, M. - Handl, B. – Trampler, F.
Nowotny, H. (1998): Das europaische TMR-Netzwerk „Ultrasonic Separation of
Suspended Particles” Proc. Joint Symposium AAA and ÖPG TC Acoustics, Graz,
Austria, 14. - 15. 1998, p 2, Austrian Acoustic Association and TC Acoustic of
the Austrian Physical Society. 5.
Blackshear, P. L. – Blackshear, G. L. (1987):
Mechanical hemolysis. In: Skalak, R. – Chien, S. eds. Handbook of
bioengineering. New Zork: McGraw-Hill, pp. 15.1-15.9. 6.
Bondy, C. – Söllner, K. (1935): Trans. Farad. Soc. 31, pp.
835-842. 7.
Brayman, A. A. – Azadniv, M. – Miller, M. W. – Chen, X.
(1994): Bubble recycling and ultrasonic cell lysis in a stationary exposure
vessel. J. Acoust. Soc. Am. Vol. 96. pp. 627-633. 8.
Brayman, A. A. – Miller, M. W. (1993): Cell density
dependence of the ultrasonic degassing of fixed erythrocyte suspensions.
Ultrasound Med. Biol. Vol. 19., pp. 243-252. 9.
Carstensen, E. L. – Kelly, P. – Chrunch, C. C. –
Brayman, A. A. – Child, S. Z. – Raeman, C. H. – Schery, L. (1993): Lysis of
erythrocytes by exposure to CW ultrasound. Ultrasound Med Biol., Vol. 19, pp.
147-165. 10. Chapman,
I. V. (1974): Br. J. Radiol. 47, 411. 11. Ciccolini,
L. – Taillandier, P. – Wilhem, A. M. – Delmas, H. – Strehaiano, P. (1997): Low
frequenc thermo-ultrasonication of Saccharomyces cerevisiae suspensions: effect
temperature and of ultrasonic power. Chemical Engineering Journal. Vol. 65.,
Issue. 2., pp. 145-149. 12. Dinno,
M. A. – Crum, L. A. – Wu, J. (1989): The effect of therapeutic ultrasound on
electrophysiological parameters of frog skin. Ultrasound Med. Biol. Vol. 15.,
pp. 461-470. 13. Dinno,
M. A. – Al-Karmi, A. M. – Stoltz, D. A. – Matthews, J. C. – Crum, L. A. (1993):
Effect of free radical scavengers on changes in ion conductance during exposure
to therapeutic ultrasound. Membr. Biochem. Vol. 10., pp. 237-247. 14. Dooley,
D. A. – Sacks, P. G. – Miller, M. W. (1984): Production of thimine base damage
in ultrasound exposed EMT6 mouse mammary sarcoma cells. Radiat. Res. Vol. 97.,
pp. 71-86. 15. Dyson,
M. (1985): in „Biological Effects of Ultrasound”, Clinics in diagnostic
ultrasound, Nyborg, W. I. – Ziskin, M. C., Eds., Churchill Livingstone, New
York, 1985, Vol. 16, PP. 121-133. 16. Ellwart,
J. W. – Brettel, H. – Kober, L. O. (1988): Cell membrane damage by ultrasound
at different cell concentrations. Ultrasound Med. Biol. Vol. 14., pp. 43-50. 17. Feindt,
W. (1951): Über die Ultraschallemphindlichkeit desParamaecium caudatum.
Strahlentherapie 84., pp.: 611-614. 18. Fu,
Y-K. – Miller, M. W. – Lange, C. S. – Griffiths, T. D. – Kaufman, G. E. (1980):
Ultrasound letality to synchronous and asynchronous Chinese hamster V-79 cells.
Ultrasound Med. Biol. Vol. 6., pp. 39-46. 19. Harwey,
W. – Dyson, M. – Pond, J. B. (1975): in „Proc. 2nd European Congress on
Ultrasonics in Medicine”, Kazner, E. – de Vlieger, M. – Muller, H. R. –
McCready, V. R. Eds., Excerpta Medica, Amsterdam, 1975, Excerpta Medica
International Congress Series No. 363., p. 10. 20. Hughes,
D. E. (1961): J. Biochem. Microbiol. Technol. Eng., 3. p. 405. 21. Hughes,
D. E. – Nyborg, W. L. (1962): Cell disruption by ultrasound. Science. Vol.
138., pp. 108-144. 22. Hurst,
R. M. – Betts, G. D. – Earnshaww, R. G. (1995): The antimicrobial effect of
power ultrasound. R&D
Report No. 4, Chipping Campden, Glos. 23. Inoue,
M. – Chrunch, C. C. – Brayman, A. – Miller, M. W. Malcuit, M. S. (1989):
Confirmation of the protective effect of cisteamine in in vitro
ultrasound exposures. Ultrasonics. Vol. 27., pp. 362-369. 24. Kaufman,
G. E. – Miller, M. W. – Grriffiths, T. D. – Clalrvino, V. (1977): Ultrasound
Med. Biol. 3, 21. 25. Kaufman,
G. E. (1985): Mutagenicity of ultrasound in cultured mammalian cells.
Ultrasound Med. Biol. Vol. 11., pp. 497-501. 26. Kondo,
T. – Gamson, J. – Mitchell, J. B. – Riesz, P. (1988): Free radical formation
and cell lysis induced by ultrasound in the presence of different rare gases.
Int. J. Radiat. Biol. Vol. 54., pp. 995-962. 27. Lee,
B. H. – Kermasha, S. – Baker, B. E. (1989): Thermal ultrasonic and ultraviolet
inactivation of salmonella in thin films of aqueous media and chocolate.
Food Microbiol. Vol. 6., pp. 143-152. 28. Li,
G. C. – Hahn, G. M. – Tolmach, L. J. (1977a): Cellular inactivation
by ultrasound. Nature. Vol. 267. p. 163. 29. Li,
G. C. – Hahn, G.M. – Tolmach, L.J. – Shiv, E. – Pounds, D. (1977b):
Radiat. Res. Vol. 70, p- 691. In.: ter Haar, G.R. (1988): Biological Effects of
Ultrasound in Clinical Applications. In Suslick, S. K. (1988): Ultrasound, Its
Chemical, Phisical, and Biological Effets. VCH Verlagsgesellschaft mbH,
Weinheim, pp. 305-319. 30. Lillard,
H. S. (1993): Bactericidal effect of chlorine on attached Salmonellae with and
without sonification. J. Food Protect. Vol. 56., No. 8., pp. 716-717. 31. Loverock,
P. – ter Haar, G. (1991): Synergism between hyperthermia, ultrasound and gamma
irradiation. Ultrasound Med. Biol. Vol. 17., pp. 607-612. 32. Lőrincz,
A. (2003): Élelmezési célú biológiai anyagok ultrahangos besugárzásának
élelmiszerfizikai és mikrobiológiai vonatkozásai (Doktori (PhD) értekezés).
Nyugat-Magyarországi Egyetem. 33. Macintosh,
I. J. C. – Davey, D. A. (1970): Chromosome aberrations induced by an ultrasonic
fetal pulse detector. Br. Med. J., Vol. 4, pp. 92-93. 34. Miller,
D. L. – Thomas, R. M. – Frazier, M. E. (1991): Ultrasonic cavitation indirectly
induces single strand breaks in DNA of viable cells in vitro by the
action of residual hydrogen peroxide. Ultrasound Med. Biol. Vol. 17, pp.
729-735. 35. Miller,
D. L. – Thomas, R. M. (1993): Frequency dependence of cavitation activity in a
rotating tube exposure system compared to the mechanical index. J. Acoust. Soc.
Am. Vol. 93., pp. 3475-3480. 36. Miller,
D. L. – Thomas, R. M. (1994): Cavitation dosimerty: estimates for single
bubbles in rotating-tube exposure system. Ultrasound in Med &
Biol., Vol. 20, pp. 197-193. 37. Miller,
D. L. – Thomas, R. M. – Buschbom, R. L. (1995): Comet Assay reveals DNA strand
breaks induced by ultrasonic cavitation in vitro. Ultrasound Med Biol., Vol.
21, pp. 841- 848. 38. Miller,
M. W. – Miller, D. L. – Brayman, A. A (1996): A review of in vitro bioeffects
of inertial ultrasonic cavitation from a mechanistic perspective. Ultrasound in
Medicine and Biology, Vol. 22, Issue 9, pp. 1131-1154. 39. Morton,
K. I. – ter Haar, G. R. – Stratford, I. J. – Hill, C. R. (1982): Br. J. Cancer.
45, Suppl. V, 147. In.: ter Haar, G.R. (1988): Biological Effects of Ultrasound
in Clinical Applications. In Suslick, S. K. (1988): Ultrasound, Its Chemical,
Phisical, and Biological Effets. VCH Verlagsgesellschaft mbH, Weinheim, pp.
305-319. 40. Nyborg
W. L. –Miller D. L. - Gershoy, A. (1974): Proceedings of Seventh Rochester
International Conference on Environmental Toxicity, Plenum Publishing Co, New
York. 41. Ordonez,
J. A. – Sanz, B. – Hernandez, P. E. – Lopez-Lorenzo, P. (1984): A note on the
effect of combined ultrasonic and heat treatments on the survival of
thermoduric Streptococci. J. Appl. Bacteriol. Vol. 56., pp. 175-177. 42. Petin,
V. G. – Komarov, V. P. – Skvortzov, V. G. (1980): Combined action of ultrasound
and ionizing radiation on yeast cells. Radiation and Environmental Biophysics.
Vol. 18., Issue. 1., pp. 45-55. 43. Petin,
V. G. – Zhurakovskaya, G. P. – Komarova, L. N. (1999): Mathematical description
of combined action of ultrasound and hyperthermia on yeast cells. Ultrasonics.
Vol. 37., Issue. 1., pp. 79-83. 44. Prise,
K. M. – Davies, S. - Michael, B. D. (1989): Cell killing and DNA damage in
Chinese hamster V79 cells treated with hydrogen peroxide. Int. J. Radiat. Biol.
Vol. 55., pp. 583-592. 45. Raso,
J. – Condon, S. – Sala Trepat, F. J. (1994): Mano-thermosonication: a new
method of food preservation? In: Food Preservation by Combined Processes. Final
report for FLAIR Concerted Action No. 7 Subgroup B. 46. Riesz,
P. – Kondo, T. (1992): Free radical formation induced by ultrasound and its
biological implications. Free Rad. Biol. Med. Vol. 13, pp. 247-270. 47. Rubleson,
G. R. – Murray, T. M. – Pollard, M. (1975): Appl. Microbiol. P. 340. 48. Sanz,
P. – Palacios, P. – Lopez, P. – Ordonez, J. A. (1985): Effect of ultrasonic
waves on the heat resistance of Bacillus stearothermophilus spores. In:
Dring, G. J. – Ellars, D. J. – Gould, G. W. (editors) Fundamental and Applied
Aspects of Bacterial Spores, Academic Press, New York, pp. 251-259. 49. Schläfer,
O. – Onyeche, T. – Bormann, H. – Schröder, C. – Sievers, M. (2000): Ultrasound
stimulation of micro-organisms for enhanced biodegradation. Ultrasonics.Vol.
40., pp. 25-29. 50. Schnitzler,
R. M. (1973): Interactions of Ultrasound and Biological Tissues. DHEW
Publication (FDA) 73-8008, BRH/DBE 73-1 p. 69. Kim, A. – Pavlovic, S. –
Schnitzler, R. M. – Woeber, K. H. (1971): First Nat. Rumanian Conf. On
Biophisics, Bucharest, p. 69. 51. Tarnóczy,
T. (1963): Ultrahangok. Műszaki Könyvkiadó, Budapest. p.271. 52. Thacker,
J. (1973): An approach the mechanism of killing cells in suspension by
ultrasound. Biochem. Biophis. Acta. 304, p. 240. 53. Thacker,
J. (1974): Brit. J. Radiol. 47, p.130. 54. ter
Haar, G. R. – Dyson, M. – Smith, S. P. (1979): Ultrasound Med. Biol. 5, 167. 55. ter
Haar, G. R. – Straford, I. J. – Hill, C. R. (1980): Br. J. Radiol. 53, 784. 56. Urick,
R. J. (1947): A sound velocity method for determining the compressibility of
finely divided substances. J. Appl. Phys., 18, 983-987. 57. Veress,
E. – Vincze, J. (1977): The haemolysing action of ultrasound on erithrocytes.
Acustica. Vol. 36., pp. 100-103. 58. Watmough,
D. J. – Dendy, P. P. – Eastwood, L. M. – Gregory, D. W. – Gordon, F. C. A.
(1977): Ultrasound Med. Biol. 3, 2205. |