Usage of low-energy electromagnetic fields of marginal high-frequency range for reconstruction of the injured by infectious microorganisms animal skin
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Abstract
The paper is concerned with the mechanism of interaction between the electromagnetic field and the microorganisms. Currently the issue for usage of low-energy electromagnetic fields of marginal high-frequency range for reconstruction of the injured by infectious microorganisms animal skin is of great interest. The use of low-energy electromagnetic fields for restoring animal skin cover is significantly different from the existing physical and therapy procedures.
The authors made the theoretical and the experimental research on updating and developing the low-energy electromagnetic technology and hardware of the electromagnetic field of high-frequency range to restore animal skin cover of infected wounds.
The process of interaction between low-energy electromagnetic fields of high-frequency range in terms of infected animal skin cover is examined on the basis of the mathematic model. Particular attention was paid to theoretical aspect and cellular level analysis of the biotronic parameters of electromagnetic fields for the oppression of infectious microorganisms in wounds of animal skin cover and its effective reunion.
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References
AARON, R. K.; BOYAN, B. D.; CIOMBOR, D. M.; SCHWARTZ, Z.; SIMON, B. J. (2004) Stimulation of growth factor synthesis by electric and electromagnetic fields. Clinical Orthopaedics and Related Research (1976-2007), v. 419, p. 30-37.
BETSKII, O.; LEBEDEVA, N. (2004) Low-intensity millimeter waves in Biology and Medicine. Clinical application of Bioelectromagnetic Medicine. New-York, USA; Macel De-k Ker. Inc.
BECKIJ, O. V.; DEVYATKOV, N. D.; LEBEDEVA, N. N. (2000) Lechenie elektromagnitnymi polyami. Biomedicinskaya radioelektronika, n. 7, p. 3–9.
BORYSEVYCH, V. (1992) Zahalna veterynarna medytsyna [General Veterinary Surgery]. Kyiv: Vyshcha shkola.
CHERENKOV, A. D.; KOSULINA, N. G.; SAPRUCA, A. V. (November – December, 2015) Theoretical Analysis of Electromagnetic Field Electric Tension Distribution in the Seeds of Cereals. Research journal of Pharmaceutical, Biological and Chemical Sciences, v. 6, n. 6, p. 1686–1694.
CHERENKOV, A.; HUTSOL, T.; HARASYMCHUK, I.; PANTSYR, Yu.; TERENOV, D.; DUBYNA, V. (2018) Analysis of broadband antenna radiation pulses. Agricultural Engineering, Polskie towarzystwo inzynierii rolniczej, p.15-28.
CHURMASOV, A. V.; ZHUKOV, V. A.; KUKUSHKINA, D. M.; KALININA, A. V.; XIMINA, G. A. (1996) Vliyanie UF oblucheniya na produktivnost i povedenie. Nizhegorodskij CNTI. Ser. R. 68.39.37, n. 49-96, P.4.
DZIEDZIC, K.; MUDRYK, K.; HUTSOL, T.; DZIEDZIC, B. (2018) Impact of grinding coconut shell and agglomeration pressure on quality parameters of briquette. Engineering for rural development, p. 1884-1889.
GOLANT, M. B. (1991) Rol millimetrovyx voln v processax zhiznedeyatelnosti. Mezhd. simp. Millimetrovye volny neteplovoj intensivnosti v medicine: Proceeding. Moskow: IRE AN SSSR. p. 545–547.
HUTSOL, T. (2017) Analysis of circuit solutions of radiometric receivers. Bulletin of the Kharkiv National Technical University of Agriculture Petro Vasilenko. Technical sciences, n. 187, p. 107–108.
HUTSOL, T. (2017) Research on suppression system analysis of high power narrowband interference operating in presence of heterodyne frequency. Scientific achievements in agricultural engineering, agronomy and veterinary medicine, v. 11, n. 1, p. 264–273.
HUTSOL, T.; KOSULINA, N. (2016) Biofizicheskiye osnovy primeneniya radiometricheskikh priyemnikov dlya distantsionnoy diagnostiki sostoyaniya zhivotnykh. Zbіrnyk naukovykh prats Podіlskoho derzhavnoho ahrarno-tekhnіchnoho unіversytetu, v. 25, p. 73-79.
ILYIN, V. A.; POZNIAK, E. N. (1978) Lineynaya algebra [Linear algebra], Moskow: Nauka.
IVANYSHYN, V.; MISIUK, M.; ZAKHODYM, M.; HUTSOL, T. (2018) Methodological aspects of the research formation and regional market development of animal production. Scientific achievements in enviromental and life science. p. 29-40.
KALYNYCHENKO, A. V.; HORDYICHUK, Y. I. (2008) Vliyaniye potogennikh poley na membrannyy potentsial bakterialnoy kletki [EMF influence on membrane cell potential], Energosberezheniye. Energetika. Energoaudit. Obshchegosudarstvennyy nauchno-proizvodstvennyy informatsionnyy zhurnal, n.1, p. 9-13.
KALYNYCHENKO, A. V.; HORDYICHUK, Y. I. (2006) Raspredeleniye vstroyennykh elektrokhimicheskikh poley v potogennikh kokhakh nakhodyashchikhsya pod vozdeystviyem vneshnego elektromagnitnogo izlucheniya [Distribution of external magnetic fields in pathogenic cocci], Energosberezheniye. Energetika. Energoaudit. Obshchegosudarstvennyy nauchno-proizvodstvennyy informatsionnyy zhurnal, n. 11, p 31-36.
KALYNYCHENKO, A. V.; SEREDA, A. Y. (2007) Teoreticheskiy analiz po ugneteniyu infektsionnykh mikroorganizmov v ranakh kozhnogo pokrova zhivotnikh nizkoenergeticheskim ЕMP KVCh diapazona [Theoretical analysis of infectious microorganism distribution in wounds of animal skin cover by low-energy electromagnetic field]. Vostochno-Evropeyskiy zhurnal peredovykh tekhnologiy, n. 6, p. 123-129.
KALNYTSKYI, L. A.; DOBROTYN, D. A.; ZHVERZHYV, V. F. (1976) Spetsialnyy kurs vysshey matematiki [Advanced Mathematics]. Moscow: Vysshaya shkola.
KAMBOURIS, M. E.; ZAGORITI, Z.; LAGOUMINTZIS, G.; POULAS, K. (2014). From therapeutic electrotherapy to electroceuticals: formats, applications and prospects of electrostimulation. Annual Research & Review in Biology, n. 4(20), p. 3054-3070.
KRASNOV, M. L.; KYSYLOV, N. Y.; MAKARENKO, N. Y. (1976) Integralnyye uravneniya [Integrated equation]. Moskow: Nauka.
LEVYTSKA, V.; MUSHYNSKYI, A.; HUTSOL, T. (2017) Detection and Diagnosis of Encephalitozoonosis in Rabbits under Ukraine-Specific Conditions. Scientific achievements in agricultural engineering, agronomy and veterinary medicine. TRAICON Publishing House. Krakow. p. 94-107.
LACY-HULBERT, A.; METCALFE, J. C.; HESKETH, R. (1998). Biological responses to electromagnetic fields. The FASEB Journal, v. 12, n. 6, p. 395-420.
ORLOV, B. N.; CHURMASOV, A. V.; KAZAKOV, A. V. (2000) Ekologo-fizologicheskie aspekty dejstviya nekogerentnyx elektromagnitnyx izluchenij na organizm Trudy Mezhd. konf. Eletromagnitnye izlucheniya v biologii. Kaluga, p. 135-139.
RUBYN, A. B. (1987) Biofizika: V 2-Kh kn.: Uchebnik dlya biol. Spets. Vuzov [Biophysics: workbook for biological specialties] Kn 2. Biofizika kletochnykh protsessov [Biophysics of cell process]. Moscow: Vyssh. Shkola.
SIMKÓ, M.; MATTSSON, M. O. (2004) Extremely low frequency electromagnetic fields as effectors of cellular responses in vitro: possible immune cell activation. Journal of cellular biochemistry, v. 93, n. 1, p. 83-92.