Biophysical characterization of the impact of electromagnetic and ultrasonic waves on biological objects

Authors

  • S Kalinichenko Mechikov Institute of Microbiology and Immunology,
  • T Antusheva Mechikov Institute of Microbiology and Immunology,
  • O Korotkykh Mechikov Institute of Microbiology and Immunology,
  • E Babych Mechikov Institute of Microbiology and Immunology,
  • F Kivva Institute of Radiophysics and Electronics A. Ya. Usikova, NAS of Ukraine,
  • O Kovaneko Institute of Radiophysics and Electronics A. Ya. Usikova, NAS of Ukraine,
  • T Ryzhkova Mechikov Institute of Microbiology and Immunology,
  • A Balak Kharkov National Medical University,

Keywords:

Biophysical, electromagnetic, ultrasonic, biological

Abstract

In recent years the physical mechanisms of action of electromagnetic fields on biological objects are actively studied. Extensive research about the effect of weak electromagnetic waves on biological objects were launched in the second half of the 60-ies of XX century. It has been suggested that the millimeter waves to biological objects are natural and are used by cells to control basic physiological functions. This review is summarizes the data of foreign and domestic literature related to influence of electromagnetic and ultrasonic waves on biological objects. The concepts of sound waves and electromagnetic field are sanctified. Several hypotheses and points of view of mechanisms of action of microwave radiation on biological objects were discussed in details. One of the hypotheses suggests that the acoustic vibrations of extremely power range can stimulate the cell plasma membrane. Other hypothesis of the mechanism of influence weak signals on biological systems are associated with the discovery of the phenomenon of stochastic resonance. It is assumed that the initiation of acoustic-electrical waves in the lipid-protein membrane of the cell activates the transport of water, ions and various substances through it. The data about the effect of electromagnetic millimeter waves on photosynthetic organisms have been summarized by several scientists. They established that exposure in the microwave range is realized on the membrane level and is connected with the change of oscillation spectrum. Peculiarities of influence of ultrasonic waves on microorganisms and cell membranes have been analysed. Scientists have discovered that detonation of dichloride nitrogen takes place under the influence of ultrasonic waves. Dichloride nitrogen causes breakdown of protein particles. Cavitation effect is one of bactericide action of ultrasonic waves. The mechanism of action of ultrasonic waves in the literature is explained by two theories: cavitation-mechanical, cavitation-electrochemical. According to the first theory of ultrasonic waves propagating in a dense environment, causing it to alternating compression and decompression. Cavitation-electrochemical theory explains the ionization liquid vapor and the presence in it gases in the formation of cavitation bubble. Аn electric discharge occurs at break bubbles. The electrical discharge accompanied by a sharp rise in temperature and in the formation of cavitation bubble electric high voltage charge. Then the vapor of the liquid and high molecular weight compounds in the cavitation chamber are split into hydrogen and hydroxyl groups with formation of active oxygen, hydrogen peroxide, nitrous acid and nitric acid, resulting in inactivation of enzymes and proteins coagulate. All this causes the death of microbial cells. As well ultrasonic vibrations can be used to initiate chemical reactions, the commission of a number of new methods of synthesis and accelerate the slow reactions in organic systems. One of the actions of the ultrasonic waves on microorganisms is a change of concentration various substances in the cytoplasm due to a change of the equilibrium concentration of substances inside and outside the cell. It was found that the effects can be different. On the one hand, researchers observed an increase in the agglutination and the loss or total loss of virulent bacteria. On the other hand there was opposite effect - increasing the number of viable cells. Application of ultrasound in medical microbiology is theoretically proved in this article. Ultrasonic techniques in microbiology used not only as an effect on biological objects and the ability to change the physico-chemical characteristics of substrates for culturing microorganisms. Application of such techniques is important for controlling the composition of artificial culture medium, in particular the concentration and the activation of molecular oxygen by ultrasonic degassing culture medium.

References

Presman, A. S. Electromagnetic alarm in wildlife (facts, hypotheses,the way research) [Text] / A. Presman. - M.: Tempo, 2004. - 82 p.

Electron-beam diodes using ferroelectric cathodes [Text] / Y. D. Jvers [at all] // J. Appl. Phys. - 2003. - Vol.73, №6. - P. 2667-2671.

Geyringer, P. Grouwater Remediction by Ozone Electron Beam Irradiation Treatment, paper present at AOTs-1 First Intl [Text] / R. Geyringer // Confron advanced Oxidation Technologies for Water and Remediation. (London, Ontario, Canada) - 2004. - June 25-30.- P. 130.

Adler, R. J. Comparison of DC and Pulsed Beams for Comercial Application [Text] / RJ Adler // (North Star Research Corporation) Beams 04. Proc. Of the 10-th Intern.Conf. on High Power Particl. Beams, June 20-24. - San Diego.CA V1, 2004. - P. 29-32.

Chalyy, O. V. Medical and Biological physical [Text] / V. Chaly - K: Vipol, 2001. - Vol.2. – P. 415

Interaction of physical fields with living matter [Text] / E. I. Nefedov, A. A. Protopopov, A. N. Sementsov, A. A. Yashin [Ed. Hadartseva AA] - Tula: RDI NMT, Ed - in Tula. Gos. research -, 1995. - 180 p.

Adaptive responses to urgent strains of corynebacteria influence of abiotic factors [Text] / E. M. Babich [et al.] // Methods of obtaining pure cultures of microorganisms and their long-term storage in collections: Museum of employees pathogenic to humans mikroorhanizmiv.- K. : Knowledge of Ukraine. - 2008 - Vol. 6. - P. 39-45.

Chizhevsky, A. L. In the rhythm of the sun [Text] / A. L.Chizhevsky, G. Shishina. - M .: Nauka, 1969 - 112 p.

Chizhevsky, A. L. Earth echo of solar storms [Text] / A. L.Chizhevsky. - Moscow: Thought, 1976. - 357 p.

Chernoshchyokov, K. A. Materialization of ideas A. L.Chizhevsky in epidemiology and microbiology [Text] / K .A. Chernoshchyokov, A. V. Lepekhin. - Tomsk: Publishing house of Tom. University Press, 1993. - 273 p.

Sister, F. D. Concerning the possible influence of the Earth's magnetic field on geomicrobiological processes in the hydrosphere [Text] / F. D. Sister, F.E. Senftle // Proc. Soc. Amer. Bacteriologists. - 1961, 61. - P. 36.

Presman, A. S. Electromagnetic alarm in wildlife (facts, hypotheses, the way research) [Text] / A. S. Presman - Moscow: Sov. radio, 1991. - 63 p.

Changes kinetics of growth of pathogens diphtheria influenced by physical factors [Text] / T. I. Antusheva [et al.] // Epidemiology, hygiene, infectious diseases. - 2010. - №1 (2). - P. 43-47.

Baranski, S. Biological effects of microwaves [Text] / S. Baranski, P. Czerski. - Stroudsburg: P, Downed, Hutchinson a. Ross, - 1996. - 234 p.

Ismailov, E. Physico-chemical mechanisms of the biological activity of the microwaves [Text] / E. S. Ismailov, SM Zubkov // Biological Sciences. - 1997. - №7. - C.5 - 10.

Serdyuk, A. M. Interaction organism with electromagnetic fields as the environmental factors [Text] / A. M. Serdyuk. - By: Naukova Dumka, 1997. - 228 p.

Afromeev V.I . Fields and radiation biophysics and bioinformatics [Text] / V. I. Afromeev, Khadartsev A. A., A. A. Yashin. Part II. Fundamentals of physical - biological and technical implementation of control actions by high-frequency electromagnetic fields in medicine [Text] / Ed. Yashin A. A. - Tula: RDI NMT Ed - in Tulsk.gos research - - 1999 - 459 p.

Tambov, A. H. Some new ideas about the causes of the formation of the stimulating effect of EHF - radiation [Text] / A. H. Tambov, NN Kirikova // Biomedical electronics. - 2000. - №1. - P.23 -26.

Devyatkov, N. D. On the prospects of the use of electromagnetic radiation in the range of millimeter waves as highly informative means of obtaining information about specific processes in living organisms [Text] / N. D. Devyatkov M. B. Golant // Letters to the journal of the theoretical. Physics (JTP). - 1968. - vol.12. - Issue 5. - S. 12-24.

Devyatkov, N. D. Influence of electromagnetic fields millimeter waves on biological objects [Text] / N. D. Devyatkov // Nauk. - 1973 - T.110, - №3. - S.453 - 454.

Devyatkov, N. D. Questions about electromagnetic radiation of low power of the highest frequencies (millimeter waves) in medicine [Text] / N. D. Devyatkov - Izhevsk Udmurdiya. - 2001. - 212 p.

Frohlich, H. Long range cogerence and energy storage in biological systems [Text] / H. Frohlich // Int. J. Quant. Chem. - 1968. - V.2. - P. 108-112.

Frohlich, H. The biological effects of microwaves and related question. - Advances in Electronics and Electron Physics [Text] / H. Frohlich // Int. J. Quant. Chem. - 1980. - №96. - P. 56-61.

Guy, A.W. Non-ionizing radiation: dosimeter and interaction [Text] / AW Guy // Non-ionizing radiation: Proc. of a topical symp., Nov. 26-28, 1979, Washington, DC. - Cincinnati, Ohio OH 45201, 1980. - P. 75-101.

The biological effect of radiofrequency radiations: A critical review and recommendation [Text] / S. M. Michaelson [et.al.] // Intern. J. Rad. Biol. - 1996. - V.21 № 3. - P. 1381-1382.

Mechanisms for the reception of electromagnetic radiation of EHF - range biological objects [Text] / J. S. Kirkilevsky, Y. I. Hohlich, V. A. Pavlenko, A. I. Kovalchuk // Fundamental and applied aspects of millimetric electromagnetic radiation in medicine: Abstracts . rep. 1 All-Union symposium with international participation. - Kyiv, 1999. - Part 1. - P.33 -35.

Vakhtin, Y. B. Creating biological models for the study of weak and ultra-weak fields and radiation [Text] / Y. B. Vakhtin // II International. Congreve .: "The weak and super-weak fields and radiation in biology and medicine." - St. Petersburg, 2000. - P. 4-14.

Havas, M. Biological effects of non-ionizing electromagnetic energy: A critical review of the reports by the US National Research Council and the US National Institute of Environmental Health Sciences as they relate to the broad realm of EMF bioeffects / M. Havas // Environ. Rev. - 2000. - Vol. 8. - P. 173-253.

Stochastic resonance: noise-enhanced order [Text] / V. S. Anischenko, A. B. Neiman, F. Moss, L. Szymanski-Gayber // Successes of physical sciences. - 1999. - T.169, - №1. - P. 23-28.

Betsky, O. V. Stochastic resonance and the problem of the impact of weak signals on biological systems [Text] / O. V. Betsky, N. N. Lebedev, T. I. Koratkovskaya // Millimeter waves in biology and medicine. - 2002. - №4. - P. 36-41.

Gaiduk, VI The concept of two stochastic processes in liquid water and analytical theory of the complex permittivity in the wavenumber range 0-1000 cm-1 [Text] / VI Gaiduk, JK Vij // J. Phys. Chem. - 2003. - Vol. 3. - P. 5173-5181.

Sinitsyn N. I. Special role of "MM-wave - water environment" in nature [Text] / N. I. Sinitsyn, V. Petrosyan, in .a. Elkin // Biomedical electronics - 1998. - №1. - P. 13-15.

The special role of the "Millimeter wave - water environment" in nature [Text] / N. I. Sinitsyn [et al.] // Biomedical electronics. - 1999. - №1. - P. 3-21.

Water, paradoxes and the greatness of the small quantities [Text] / VI Petrosyan [et al.] // Biomedical electronics - 2000. - №2. - P. 4-9.

Michaelson, S. M. Microwave and radiofrequency radiation [Text] / S. M. Michaelson // Non-ionizing radiat. prot. - Copenhagen. - 2000. - P. 107-114.

Frei, M. R. Field orientation effects during 5.6 GHr radiofrequency irradiation of rats [Text] / M. R. Frei, J. R. Jauchem, D. L. Price // Aviat. Space and Environ. Med. - 2000. - Vol. 61., №12. - P. 1125-1129.

Betsky, O. V. Activation of water and aqueous solutions of low-intensive millimeter waves [Text] / O. V. Betsky, N. N. Lebedev, S. V. Posmitnogo // Coll. rep. 12 Ross. Symp. with int. participation. "Millimeter waves in biology and medicine." - M.: IRE - 2000. - P. 128-132.

Interaction of water-based fluids with magnetic fields [Text] / V. Petrosyan, N. I. Sinitsyn, V. A. Elkin // Bashkatov biomedical electronics. - 2000. - №2. - P.10-17.

Maintaining a matrix structure of water - a key mechanism in the homeostatic regulation of living systems [Text] / E. Brill, V. Petrosyan, N. I. Sinitsyn, V. A. Elkin // biomedical electronics. - 2000. - №2. - P.18-23.

Jutiolainen, J. Biological effects of nonionizing electromagnetic fields - a hypothetical model [Text] / J. Jutiolainen // Environmental health our meant and health, Nov. 25-27, 2000. - Kuopio, - 2002. - P. 90-112.

High Energy Electron Beam Irradiation of Water, Wastewater and Sludge [Text] / Charles N. Kurucz, Thomas D. Waite, William J.Cooper, Michael J. Nickelsen // Adwanced in Nuclear and Technology. - 1991. - №22. - P. 1 - 39.

Swicord, M. L. Strong interaction of radiofrequency fields with nucleic acids [Text] / M. L. Swicord, P. Czersky, Y. S. Edwards // Nonlinear electrodynamics in biological systems. - 1983. - №11. - P. 35-57.

Belyaev, I. Ya. Cooperative response of E.coli to the resonance effect of millimeter waves at super low intensity [Text] / I. Ya. Belyaev // Electro magnetobiol. - 1994. - V.13 - P. 18-23.

Geyringer, P. Grouwater Remediction by Ozone: Electron Beam Irradiation Treatment [Text] / P. Geyringer // Confron advanced Oxidation Technologies for Water and Remediation. - London, Ontario, Canada, June 25-30, - 1994. - P. 130.

Adler, R. J. Comparison of DC and Pulsed Beams for Comercial Application [Text] / R. J. Adler // North Star Research Corporation: Beams 94. Proc. Of the 10-th Intern.Conf. on High Power Particl. - Beams, June 20-24, 1994. San Diego.CA V1, P. 29 -32.

Antipov, V. S. Impulse electron gut with plasma cathode for realization of large diameter tube-shaped beams [Text] / V. S. Antipov, V. I. Karpukhin, E. A. Kornilov // Voprosy atomnoy nauki i techniki., Issue. - 1999. - Vol. 3, №4. - P. 215 - 217.

Romo, H. Membrane potential changes in a plant cell induced by low intensity mm microwave [Text] / H. Romo, K. Alveal, C. Werlinger // J. Appl. Phycol. - 2001. - V.13. - P. 1081-1085.

Atomic radius [Text] / The University of Sheffield and WebElements Ltd [Electron resource]. - 2003 Access mode: www.webelements.com.

Atkinson, DE Cellular energy metabolism and regulation [Text] / DE Atkinson // Academic Press, Inc., New York, 1977. - 156 p.

Ronne, C. Investilation of the temperature dependence of dielectric relaxation in liquid water by THz reflection spectrospory and molecular dynamics simulation [Text] / C. Ronne, L. Trane, H. Astrand // J. Chem. Phys. - 1997. Vol. 107, №14. - P. 5319-5332.

Zoidis, E. Far-Infrared Studies on the Intermolecular Dynamics of Systems Containing Water [Text] / E. Zoidis, J. Yarwood, M. Beshard // J. Chem. Phys. - 1999. - Vol. 103, №2. - P. 2220-2224.

Mechanisms of electromagnetic interaction with cellular systems [Text] / W. Grundler, F. Kaiser, F. Keilmann, J. Walleczek // Naturwissenschaften. - 2002. - V.79. - P. 551-559.

Dibrov, P. Sodium cycle in Vibrio cholerae: nerazgadonnye puzzles. [Text] / P. Dibrov // Biochemistry. - 2005 - T.70, issue 2. - S. 185-190.

Zoidis, E. The Intermolecular Dynamics of Systems Containing Water [Text] / E. Zoidis // J. Chem. Phys. - 2000. Vol. 104, №1. - P. 2218-2223.

Interaction of physical fields with living matter [Text] / E. I. Nefedov, A. A. Protopopov, A. N. Sementsov, A. A. Yashin // Ed. Hadartseva A. A. - Tula: RDI NMT, Ed - in Tula. Gos. research -, 1995. – P. 180

Serdyuk, A. M. Interaction organism with electromagnetic fields as the environmental factors [Text] / A. M. Serdyuk. - K.: Naukova Dumka, 1997. - P.226

Loshchilov V. I. Information - wave medicine and biology [Text] / V. I. Loshchilov. - M. Allegro-Press. - 1998. - P.226

Kudryashov, Yu. B. Biological bases of action of microwaves (Tutorial) [Text] / Yu. B. Kudryashov, S. E. Ismailov, S. M. Zubkov. - Moscow: State Univ. University Press, 2002. - P.159

Sitko, S. P. Introduction to Quantum Medicine [Text] / S. P. Sitko, L. N. Mkrtchyan. - K.: Pantheon, 2004. - P.147

Devyatkov, N. D. Features medico - biological use of millimeter waves [Text] / N. D. Devyatkov, M. B. Golant, O. V. Betsky. M: Publishing

Beloborodov, N. V. Homeostasis small molecules of microbial origin and its role in the relationship of microorganisms with the host [Text] / N. V. Beloborodov, G. A. Osipov // Vestn. RAMS. - 1999. - in., № 7. - P. 25 - 31.

Tambov, A. H. Some new ideas about the causes of the formation of the stimulating effect of EHF - radiation [Text] / A. H. Tambov, N. N. Kirikova // Biomedical electronics. - 2000. - №1. - P.23 -26.

Influence electromagnetic fields on water systems and the process of cultivation of microorganisms [Text] / V. Popov, B. S. Xenophon, Ya. Ya. Shkop, P. A. Smyslov // Episode 11: General microbiological industry. - MA - 2003 - B.5. - P.24.

Some issues of interaction of electromagnetic radiation of extremely range and homeopathic drugs with biological systems [Text] / E. P. Lyapina, I. A. Chesnokov, Yu. Yu. Eliseev, A. A. Shuldyakov // Biomedical technology and electronics. - 2004. - №11. - P. 65-76.

Duscombe, P. B. A search for nonthermal effects of 434 MHz microwave radiation on whole human blood [Text] / P. B. Duscombe, K. Gammampila, N. W. Ramsey // Radiation research. - 2003. - №96. - P. 235-250.

Pohl, A. Natural alternating fields associated with living cells [Text] / A. Pohl // Int. J. Quantum Chem., Quantum Biol. Symp. - 2004, № 11: Proc. Int. Symp. Quantum Biol. P. 121-134.

Stuchly, M. A. Fundamental of the interaction of radiofrequency and microwave energies with matter [Text] / M. A. Stuchly // Biol. eff. and dosim. nonioniz. radiat .: Proc. NATO Adv. Study Inst. 4-th course Int. Sch. Radiat. Damage and Prot. Ettore Majorana Cent. Sci. Cult. Erice, 28 March - 8 Apr., 2001. - New York, London, - 2003. - P. 75-93.

Cleary, S. F. Microwave radiation effects on humans [Text] / S. F. Cleary // Bioscience. - 2003. - Vol.33, №4. - P. 269-273.

Roberts, N. J. Epidemiological studies of human exposure to radiofrequency radiation. A critical review [Text] / N. J. Roberts, S. M. Michaelson // Int. Arch. Occup. Environ. Health. - 2005. - V. 56, №3. - P.169-178.

Roberts, N. J. The biological effect of radiofrequency radiations: A critical review and recommendation [Text] / N. J. Roberts, S. M. Michaelson, Shin Tsu Lu // Intern. J. Rad. Biol. - 2005. - V. 45, №1. - P.196-209.

Roberts, N. J. Radiofrequency and microwave effects on immunological and hematopoietic systems [Text] / N. J. Roberts // Biological Effects and Dosimetry of Nonionizing Radiation Radiofrequency and Microwave Energies: Proc. NATO 28 March - 8 Apr. 2001. - Erice, 2003. - P. 429-459.

Resonance effect of millimeter waves in the power range from 10-19 to 3 * 10-3 W / cm2 on E.coli cells at different concentrations [Text] / I. Ya. Belyaev, V. S. Shcheglov, Y. D. Alipov, V. A. Polunin // Bioelectromagnetics. - 1996. - V.17, № 3. - P. 112-116.

Cleary, S. F. Biochemical effects of pulsed electromagnetic fields [Text] / S. F. Cleary, N. Cheng, M. A. Stuchly // Bioelectrochem. Bioenerg. - 2001. - V.19. - P. 2241-2247.

Adey, W. R. Millimeter microwave effect on ion transport across lipid belayed membranes [Text] / WR Adey // Bioelectromagnetics. - 1995. - V.16 - P. 124-131.

Cheng, N. Biochemical effects of pulsed electromagnetic fields [Text] / N. Cheng // Bioelectrochem. Bioenerg., - 1998. - V.4. - P. 2238-2241.

Grundler, W. Experimental evidence for coherent excitation correlated with cell growth [Text] / W. Grundler, F. Kaiser // Nanobiology. - 2002. - V.1. - P. 163-176.

Pohl, Herbert A. Natural alternating fields associated with living cells [Text] / Herbert A. Pohl // Proc. Int. Symp. Quantum Biol. Palm Coast, Fla, March 12-15, 2004. - P. 367-368.

Blinowska, K. J. Membranes as a Possible Site of Frolics Coherent Oscillations [Text] / K. J. Blinowska, W. Lech, A. Wittlin // Phys. Letters. - 2005. - Vol. 109A, №3. - P. 124-126.

Berzhanskite, L. Yu. Effect of electromagnetic radiation of EHF on bioluminescence bacteria / L. Yu. Berzhanskite, O. Beloplotova, V. N. Berzhanskite // Millimeter waves in biology and medicine. - 1993. - №2. - P. 15-18.

Berzhanskite, L. Yu. Effect of electromagnetic fields on the activity of bioluminescence in bacteria [Text] / L. Yu. Berzhanskite, V. N. Berzhanskite, O. Beloplotova // Biophysics. - 1995 - T.40. - P. 25-27.

Drokina, T. V. Action millimeter electromagnetic waves on the luminescence of bacteria [text] / T. Drokina, L. Popova // Biophysics. - 1998 - T.43. - Vol.3. - P. 522-525.

Gostels, H. Beziehungen Zwischen Witterungsablauf physikalisch-chemischen Reaktionen. Unter Besonderer Berucksichtigungeigener mikrobiologischer Versuchsergebnisse [Text] / H. Gostels // Naturwissenschaften / - 1995. - V.121 – S.165-178.

Cleary, S. Microwave measurement techniques [Text] / S. Cleary // Non-ionizing radiation: Proceed. of a topical symp. - Nov. 26-28. - 1999. - Washington, Dc. - Cincinnati, Ohio OH 45201. - 2000. - P. 71-74.

William, M. Genetic, growth and reproductive effects of microwave radiation [Text] / M. William // Bulletin of the New York Academy of Medicine. - 2000. - V. 56, №2. - P. 249-253.

Adey, W. R. Tissue interaction with no ionizing electromagnetic fields [Text] / W. R. Adey // Physiol. Rev. - 2001. - Vol.61, № 2. - P. 435-514.

Millimeter waves and photosynthetic organisms [Text] / A. H. Tambiev [et al.] / Ed. V. Gulyaev and A. H. Tambieva. - M .: Radio Engineering, 2003. – P. 175

Lukyanov, A. A. Stimulatory effect of electromagnetic radiation of EHF in the actinomycetes [Text] / A. Lukyanov, A. Likhachev // Intern. Conf. : New information technologies in medicine and ecology. - Crimea (Yalta-Gurzuf). - 2001. - P. 63-65.

Tambo, A. H. Application active frequencies of electromagnetic radiation in the millimeter and centimeter range in microbiology [Text] / A. H. Tambov, N. N. Kirikova, A. A. Lukyanov // High Tech. - 2002. - №1. - P. 26-33.

Devyatkov, N. D. The role of synchronization in the impact of the weak signals of millimeter wave on living organisms [Text] / N. D. Devyatkov , M. B. Golant, A. Tager //Non-thermal effects of millimeter wave radiation on biological objects . - M.: IRE, 2003. - P.7 - 17.

Golant, M. B. On the problem of resonance action of coherent electromagnetic radiation of millimeter wave on living organisms [Text] / M. B. Golant // Biophysics. - 1989. - T.XXXIV, №2. - P. 339-348.

Betsky, O. V. Electromagnetic Waves and living organisms [Text] / O. V. Betsky, N. D. Devyatkov, V. V. Kislov // Radio engineering. - 1996. -№9. - P.89-92.

Shub, G. M. Electromagnetic radiation of microorganisms [Text] / G. M. Shub [et al.] // Biomedical electronics. - 2000. - №2. - P.58-60.

Akopyan, V. B. Based on interaction with biological objects of ultrasound: Ultrasound in medicine, veterinary medicine and experimental biology [Text] / V. B. Hakobyan, Yu. Yershov. - M .: MSTU. Bauman, 2005. – P. 224

Bergman L. Ultrasound and its application in science and engineering [Text] / [Trans. to it.] // Edited by V. S. Grigorieva and L. D. Rosenberg. - M .: Publishing House of foreign lit-ry, 1957. – P. 726

Antusheva, T. I. Some features of the influence of ultrasound on microorganisms [Electron resource] / T. I. Antusheva // Living and biokosnye system. - 2013. - № 4. - http: //www.jbks.ru/archive / issue-4 / article-11

Forty, SA Influence of acoustic waves on biological objects [Text] / SA // Forty vibration in engineering and technology. - 2005. - № 1. - P. 39-41.

Elpiner, I. E. Biophysics ultrasound [Text] / I. E. Elpiner. - M .: Nauka, 1973. – P.384

Perelman M. I. Bactericidal action of ultrasound [Text] / M. Perelman, V. S. Moiseev // Problems of technology in medicine. - Taganrog, 1980. - P. 38-41.

Weissler, A. Formation of hydrogen peroxide by ultrasonik waves: free radicals [Text] / A Weissler // J. Am. Chem. Soc. - 1959. - Vol. 81. - P. 1077-1081.

Baklanov, A. N. Sonoluminescence in chemical analysis (review) [electronic resource] / A. N. Baklanov, F. A. Chmilenko // Methods and objects of chemical analysis. - 2006 - Vol. 1, № 2. - P. 105-107. Access mode: http://www.nbuv.gov.ua/portal/chem_biol/moca/2006_2008/pdf/

Gainetdinov, B. C. Multibubble sonoluminescence of aqueous solutions, chlorides, lantonidov [Text]: Author. Dis. ... Cand. Sci. Science / Gainetdinov Renat Huseynovich; Bashkir State. Univ. - Ufa, 2006. – P. 22

Ponomarenko G. N. Biophysical basics of physiotherapy [Text] / Ponomarenko - St. Petersburg. "MMA", 2003. - P.152

Zyatikov V. N. RETON. Ultrasound therapy [Text] / V. N. Zyatikov - Tomsk, 2010. – P. 138

Filonenko, E. A. Simulation of thermal processes in biological tissues under the influence of focused ultrasound. / E. A. Filonenko, V. A. Khokhlova // Bulletin of Moscow University. Series 3. Physics, astronomy - 1999. - №6. - P. 29-30.

Dison, M. The effect of pulsed ultrasound on tissue regeneration [Text] / M. Dison, J. Pond // Physiotherapy. - 1978. - Vol. 64, № 4. - P. 105-108.

Shilyaev, A. Ultrasound in science, engineering and technology [Text] / A. Shilyaev - Gomel Institute of Radiology, 2007. – P. 41

The physical basis for the use of ultrasound in medicine and ecology: Manual [Text] /, ed. Ed. prof. S. P. Kundas. - Minsk: ISEU. A. D.Saharova, 2009. – P. 110

Moshiashvili, I. Y. Electron study of the morphology of pertussis bacteria, sonicated [Text] / I. Y. Moshiashvili, S. N. Selezneva, S. L. Sandulova // Journal. microbe., epidemiological. and immunobiology. - 1969. - № 6. - P. 126-128.

Isayenko, E. Y. The use of ultrasound for disintegration of microbial cells [Text] / E. Y. Isayenko // Annals of Mechnicov Institute. - 2008. - №1. - P. 5-9.

Shaphaev, E. G. Basics biotechnology. The disintegration of the microbial cells [text] / E. G. Shaphaev, B. J. Tsyrenov, E. I. Chebunina. - Ulan-Ude, 2005. – P. 65

Demin, I. Y. modern acoustic research methods in biology and medicine (educational materials) [electronic resource] / I. Y. Demin, N. V. Pronchatov-Rubtsov // Lectures. - 2013 Access mode: http://www.unn.ru/pages/issues/aids/2007/37.pdf

Harvey, E. N. High Frequency Sound Waves of Small Intensity and Their Biological Effects [Text] / E. N. Harvey, A. L. Loomis // Nature - 1928. - № 121 - P. 622.

Harvey, E. N. High Speed photomicrography of Living Ceel Subjected to the Supersonic Vibration [Text] / E. N. Harvey, A .L. Loomis // Journ. Gen. Physiol. - 1931. - № 15 - P. 147.

Pearce, J. F. Effect of ultrasound on biological properties of enteric bacteria. Post IT. Change of biochemical properties and antigenic structure of Shigella and Salmonella under the influence of ultrasound [Text] / J. F. Perce, L. G. Zhdanov // ZHMEI. - 1964. - № 3. - P. 27-30.

Sidorov, M. A. On the action of ultrasound on some pathogenic anaerobic and aerobic microorganisms [Text]: Author. Dis. ... Cand. vet. Sciences. / Sidorov, Mikhail Abramovich; All-Union. Acad. agricultural Sciences them. Lenin. All-Union. Institute of Experimental. veterinary medicine. - M, 1964. – P.24

Kiryuschenkova, S. V. Comparative microbiological evaluation of the effectiveness of physical methods of treatment of purulent wounds [Text]: Dis .... cand. biol. Sciences - 03.00.07 / Kiryushenkova Svetlana; GOU VPO "Moscow Medical Academy." - M., 2005. – P. 168

Bartley, J. Ultrasound as a treatment for chronic rhinosinusitis [Text] / J. Bartley, D. Young // Med. Hypotheses. - 2009. - V.73, № 1. - P.15-17.

Mishina, M. Effects of ultrasonic radiation generated in biofilms and their capacity for forming S.aureus [Text] / M. Mishina // Annals of Mechnikov Institute. - 2012. - N 3. - P. 33-36.

Mozgova, A. Study of ultrasonic radiation on the ability to form biofilms and biofilm formed in Klebsiella pneumoniae [Text] / A. Mozgova // Annals of Mechnikov Institute - 2012. - N 3. - P. 37- 40.120. Patent for Utility Model 81485 Ukraine, IPC G01N21 / 01. Method of evaluating the effectiveness of low-intensity ultrasound radiation exposure to the destruction of primary biofilms and prevention of the formation of secondary biofilms by microorganisms [Text] / Davydenko V. B., Davydenko N .V., Paschenko Yu.V., Mishina M. M., Mishin M. Yu., Katasonov Yu.O., Dubovik O. S., Kharkiv National Medical University. - № u2013 02,375, Appl. 25.02.2013, Publ. 06.25.2013, Bull. Number 12.

Sabelnikova, T. M. Joint effect of ultrasound and antiseptic for pyogenic bacteria [Text] / TM Sabelnikova, VV Cherkashin, AM // Ultrasound sexual and other forms of energy in surgery: Proceedings of the Moscow Higher Technical School. NE Bauman. - 1980. - № 319. - P. 59-63

Toporov Y. A. Biological effect of ultrasound on microorganisms [Text] / Y. A. Toporov, Igor Shepelev, V. M. Melnikov // Ultrasound and other forms of energy in surgery: Proceedings of the Moscow Higher Technical School. N. E. Bauman. - 1980. - № 319. - P. 120-123.

Isayenko, O. biological characteristics antigens B. pertussis, selected using ultrasonic disintegration [Text]: Author. Candidate of med. science: 03.00.07 / Isaenko Elena: SI "Institute of Microbiology and Immunology them. Mechnikov NAMS ". - Kharkiv, 2010. –P. 19

The biological characteristics of the causative agent of diphtheria antigens isolated using physicochemical methods [Text] / I. V. Elisha [et al.] // Annals Mechnikovskoho Institute. - 2008. - № 3. - P. 25-31.

Biochemical composition diphtheria pathogen antigenic preparations obtained in different modes of ultrasound exposure / E .M. Babich [et al.]. // Scientific-practic. Conf. "The strategy and tactics of fighting infectious diseases": Abstracts - Kharkiv, 2012. - P. 55-56.

Smerdov, A. A. Effect UHF radiation intensity of metabolism in seeds [Text] / A. A. Smerdov, S. I. Volkov, A. A. Landar // Bulletin of Poltava State Agrarian Academy - 2008. - № 2. - P.172-174.

Boyko, M. Ultrasound Study of the kinetics of extraction of biologically active substances of plant material [Text] / M. Boyko, Zaitsev AI / Ukrainian Journal of Clinical and Laboratory Medicine. - 2008. - T 3, № 3. - P. 53-55.

Consider modifying diphtheria exotoxin using physical and chemical factors [Text] / E. M. Babich [et al.] // XV Congress of Rus. scientific-medical. LTD. microbiologists, epidemiologists and Parasitologists them. Zabolotny: abstracts, Kharkiv, 2011. - P.83.

Effect of factors on specific activity and safety of derivatives of diphtheria toxin [Text] / S. V. Kalinichenko [et al.] // Epydemyology, ecology and hyhyen conf. - Kharkov, 2011. - Part 2. - P. 119-124.

Zubchenko, V. S. Effect of ultrasonic treatment on the stability of fermented beverages [Text] / V. S. Zubchenko, O. P. Windmill, L. Tkachenko // Food Industry. - 2008. - №7 - P.51-53.

Thomas, J. Montville. Food Microbiology: an Introduction [Text] / Thomas J. Montville, Karl R. Matthews, and Kalmia E. Kniel. // Third Edition ASM Press. - 2012. – P. 570

Dreyden A. I. Use of ultrasound [electronic resource] / A. I. Dreyden - 2009 - Access mode: http://www.rezonans-npk.ru

Voytovych, A. Characterization of microbiota nasal mucosa rights under anthropogenic load [Text] / E. V. Voytovych // XIII Congress comrade. Microbiologists of Ukraine. S. M. Winogradsky: Theses. - Yalta, 2013. - P. 236.

Guy, A. W. Biological Effects of Electromagnetic Radiation : Medical Applications at Sub-Microwave Frequencies [electronic resource] / Arthur W. Guy, FELLOW // IEEE Global histori network – 2013. Access mode: http://www.ieeeghn.org/wiki/index.php

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Kalinichenko, S., Antusheva, T., Korotkykh, O., Babych, E., Kivva, F., Kovaneko, O., Ryzhkova, T., & Balak, A. (2020). Biophysical characterization of the impact of electromagnetic and ultrasonic waves on biological objects. Annals of Mechnikov’s Institute, (3), 25–36. Retrieved from https://journals.uran.ua/ami/article/view/193469

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No. 3 (2015)

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