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  • 1 Institute of Agricultural, Food and Environmental Engineering, Faculty of Agricultural and Food Sciences, University of West Hungary H-9200 Mosonmagyaróvár, Vár 2. Hungary
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Our goal was to explore the interactions between the acoustic phenomena taking place in the ultrasound field, the concentration of the biological particles of the ultrasound field, and the cell biology effects of these interactions. Using output power of 9 W cm-2 and frequency of 1.117 MHz, the concentration was determined, expressed in g l-1, of lyophilized Saccharomyces cerevisiae baker's yeast needed for stopping cavitation in the sound field. Then by using multiples of the aforementioned concentration, we monitored the acoustic phenomena occurred in the sound field and, simultaneously, we examined the survival dynamics of the cells. Examined acoustic phenomena were the following: acoustic streaming, standing wave, and cavitation. Physical parameters (suspension density, dissolved oxygen, temperature) of the sound field had essential effect on the acoustic phenomena formed in the ultrasound field and on the threshold levels of their formation. The phenomena affected the composition of the material in the sound field, so an acoustical phenomenon - cell biological effect chain reaction took place during the radiation.

  • Liebeskind, D., Bases, R., Elequin, F., Neubrot, S., Leifer, R., Goldberg, R. & Koenigsberg, M. (1979): Diagnostic ultrasound: effects on the DNA and growth patterns of animals cells. Radiology, 131, 177-184.

    'Diagnostic ultrasound: effects on the DNA and growth patterns of animals cells. ' () 131 Radiology : 177 -184.

    • Search Google Scholar
  • Miller, D. L. (1987): A review of the ultrasonic bioeffectiveness of microsonation, gas-body activation, and related cavitation-like phenomena. Ultrasound Med. Biol., 13, 443-470.

    'A review of the ultrasonic bioeffectiveness of microsonation, gas-body activation, and related cavitation-like phenomena. ' () 13 Ultrasound Med. Biol. : 443 -470.

    • Search Google Scholar
  • Walsch, P., Radel, S., McLouglin, A. J., Gherardini, L. & Benes, E. (1999): Evaluation of the effect of immobilisation techniques and low intensity ultrasonic waves on brewer's yeast cells. Poster presented at the 9th European Congress on Biotechnology, 11-15 July, Brussels, Belgium.

    'Evaluation of the effect of immobilisation techniques and low intensity ultrasonic waves on brewer's yeast cells' , , .

    • Search Google Scholar
  • Wathmough, D. J., Quan, K. M. & Shiran, M. B. (1990): Possible explanation for the unexpected absence of gross biological damage to membranes of cells insonated in suspension and in surface culture in chambers exposed to standing and progressive wave fields. Ultrasonics, 28, 142-148.

    'Possible explanation for the unexpected absence of gross biological damage to membranes of cells insonated in suspension and in surface culture in chambers exposed to standing and progressive wave fields. ' () 28 Ultrasonics : 142 -148.

    • Search Google Scholar
  • 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 Med. Biol., 22, 1131-1154.

    'A review of in vitro bioeffects of inertial ultrasonic cavitation from a mechanistic perspective. ' () 22 Ultrasound Med. Biol. : 1131 -1154.

    • Search Google Scholar
  • Verall, R. E. & Sehgal, C. M. (1988): Sonoluminescence. -in: Suslick, K. S. (Ed.) Ultrasound. Its chemical, physical and biological effects. VCH Verlagsgesellschaft mbH, Weinheim, pp. 227-286.

    Ultrasound. Its chemical, physical and biological effects , () 227 -286.

  • Veress, E. & Vincze, J. (1977): The haemolysing action of ultrasound on erythrocytes. Acoustica, 36, 100-103.

    'The haemolysing action of ultrasound on erythrocytes. ' () 36 Acoustica : 100 -103.

  • Apfel, R. E. (1986): Acoustic cavitation. Meth. exp. Phys., 19, 355-441.

    'Acoustic cavitation. ' () 19 Meth. exp. Phys. : 355 -441.

  • Biró, I. (1976): Mikrobiológiai gyakorlatok. (Practices of microbiology.) Lecture notes, ATE Mezögazdaságtudományi Kar, Tejgazdaságtani és Mikrobiológiai Tanszék, Mosonmagyaróvár.

    Mikrobiológiai gyakorlatok. (Practices of microbiology.) Lecture notes , ().

  • Brayman, A. A. & Miller, M. W. (1992): Bubble cycling and standing waves in ultrasonic cell lysis. Ultrasound Med. Biol, 18, 411-420.

    'Bubble cycling and standing waves in ultrasonic cell lysis. ' () 18 Ultrasound Med. Biol : 411 -420.

    • Search Google Scholar
  • Chrunch, C. C. & Miller, M. W. (1983): The kinetics and mechanics of ultrasonically-induced cell lysis produced by non-trapped bubbles in a rotating culture tube. Ultrasound Med. Biol., 9, 385-393.

    'The kinetics and mechanics of ultrasonically-induced cell lysis produced by non-trapped bubbles in a rotating culture tube. ' () 9 Ultrasound Med. Biol. : 385 -393.

    • Search Google Scholar
  • Deák, T. (1997): Élelmiszeripari mikrobiológia. (Food industrial microbiology.) Lecture notes, Kertészeti és Élelmiszeripari Egyetem, Tartósitóipari Kar, Budapest.

    Élelmiszeripari mikrobiológia. (Food industrial microbiology.) Lecture notes , ().

    • Search Google Scholar
  • Kuttruff, H. (1991): Ultrasonics fundamentals and applications. Elsevier Applied Science, London and New York, pp. 161-165.

    161 165

 

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Senior editors

Editor(s)-in-Chief: András Salgó

Co-ordinating Editor(s) Marianna Tóth-Markus

Co-editor(s): A. Halász

       Editorial Board

  • L. Abrankó (Szent István University, Gödöllő, Hungary)
  • D. Bánáti (University of Szeged, Szeged, Hungary)
  • J. Baranyi (Institute of Food Research, Norwich, UK)
  • I. Bata-Vidács (Agro-Environmental Research Institute, National Agricultural Research and Innovation Centre, Budapest, Hungary)
  • J. Beczner (Food Science Research Institute, National Agricultural Research and Innovation Centre, Budapest, Hungary)
  • Gy. Biró (National Institute for Food and Nutrition Science, Budapest, Hungary)
  • A. Blázovics (Semmelweis University, Budapest, Hungary)
  • F. Capozzi (University of Bologna, Bologna, Italy)
  • M. Carcea (Research Centre for Food and Nutrition, Council for Agricultural Research and Economics Rome, Italy)
  • Zs. Cserhalmi (Food Science Research Institute, National Agricultural Research and Innovation Centre, Budapest, Hungary)
  • M. Dalla Rosa (University of Bologna, Bologna, Italy)
  • I. Dalmadi (Szent István University, Budapest, Hungary)
  • K. Demnerova (University of Chemistry and Technology, Prague, Czech Republic)
  • Muying Du (Southwest University in Chongqing, Chongqing, China)
  • S. N. El (Ege University, Izmir, Turkey)
  • S. B. Engelsen (University of Copenhagen, Copenhagen, Denmark)
  • E. Gelencsér (Food Science Research Institute, National Agricultural Research and Innovation Centre, Budapest, Hungary)
  • V. M. Gómez-López (Universidad Católica San Antonio de Murcia, Murcia, Spain)
  • J. Hardi (University of Osijek, Osijek, Croatia)
  • N. Ilić (University of Novi Sad, Novi Sad, Serbia)
  • D. Knorr (Technische Universität Berlin, Berlin, Germany)
  • H. Köksel (Hacettepe University, Ankara, Turkey)
  • K. Liburdi (Tuscia University, Viterbo, Italy)
  • M. Lindhauer (Max Rubner Institute, Detmold, Germany)
  • M.-T. Liong (Universiti Sains Malaysia, Penang, Malaysia)
  • M. Manley (Stellenbosch University, Stellenbosch, South Africa)
  • M. Mézes (Szent István University, Gödöllő, Hungary)
  • Á. Németh (Budapest University of Technology and Economics, Budapest, Hungary)
  • Q. D. Nguyen (Szent István University, Budapest, Hungary)
  • L. Nyström (ETH Zürich, Switzerland)
  • V. Piironen (University of Helsinki, Finland)
  • A. Pino (University of Catania, Catania, Italy)
  • M. Rychtera (University of Chemistry and Technology, Prague, Czech Republic)
  • K. Scherf (Technical University, Munich, Germany)
  • R. Schönlechner (University of Natural Resources and Life Sciences, Vienna, Austria)
  • A. Sharma (Department of Atomic Energy, Delhi, India)
  • A. Szarka (Budapest University of Technology and Economics, Budapest, Hungary)
  • M. Szeitzné Szabó (National Food Chain Safety Office, Budapest, Hungary)
  • L. Varga (University of West Hungary, Mosonmagyaróvár, Hungary)
  • R. Venskutonis (Kaunas University of Technology, Kaunas, Lithuania)
  • B. Wróblewska (Institute of Animal Reproduction and Food Research, Polish Academy of Sciences Olsztyn, Poland)

 

Acta Alimentaria
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Acta Alimentaria
Language English
Size B5
Year of
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1972
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2021 Volume 50
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4
Founder Magyar Tudományos Akadémia
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