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Issue 2

Journal for Veterinary Medicine, Biotechnology and Biosafety

Volume 4, Issue 2, June 2018, Pages 14–16

ISSN 2411-3174 (print version) ISSN 2411-0388 (online version)

EXPERIMENTAL JUSTIFICATION FOR THE USE OF BIORESONANCE METHOD OF ASSESSING THYROID FUNCTION IN DOGS

Bobrytska O. M. ¹, Karpovskyi V. I. ², Yuhai K. D. ¹, Vodopianova L. A. ¹

¹ Kharkiv State Zooveterinary Academy, Kharkiv, Ukraine, e-mail: olga.bobritskaya2410@gmail.com

² National University of Life and Environmental Sciences of Ukraine, Kyiv, Ukraine

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Citation for print version: Bobrytska, O. M., Karpovskyi, V. I., Yuhai, K. D. and Vodopianova, L. A. (2018) ‘Experimental justification for the use of bioresonance method of assessing thyroid function in dogs’, Journal for Veterinary Medicine, Biotechnology and Biosafety, 4(2), pp. 14–16.

Download PDF (online version)

Citation for online version: Bobrytska, O. M., Karpovskyi, V. I., Yuhai, K. D. and Vodopianova, L. A. (2018) ‘Experimental justification for the use of bioresonance method of assessing thyroid function in dogs’, Journal for Veterinary Medicine, Biotechnology and Biosafety. [Online] 4(2), pp. 14–16. Available at: http://jvmbbs.kharkov.ua/archive/2018/volume4/issue2/oJVMBBS_2018042_014-016.pdf

Summary. The state of the thyroid gland was studied on 36 dogs according to biochemical parameters of the blood and bioresonance testing using the ‘PARKES‑D’ diagnostic complex, the principle of which is based on the phenomenon of biological resonance — the determination of the electrical conductivity of biologically active points when microresonance circuits are introduced into the electromagnetic contour. At the final stage of the research, comparisons of these techniques were performed. It has been established that the decrease of the functional state of the thyroid gland is accompanied by the 1.6 times increase of the thyroid-stimulating hormone content in the blood of dogs. In this case, a decrease in the level of triiodothyronine in the blood of dogs with the 21.4% hypothyroidism of the thyroid gland was established. The content of tetraiodothyronine in the blood of dogs with a decrease in the functional state of the thyroid gland was almost twice reduced, and the content of total cholesterol in the blood of dogs in the experimental group was 1.48 twice as much. There has been proven 1.7 times increase in the ratio of the total cholesterol content to tetraiodothyronine in the blood of dogs with a decrease in the functional state of the thyroid gland. The conducted researches have established that for dogs. The bioresonance is the fluctuation of the value of the electrical conductivity of the biological active points of 8–24 units of the scale of the ‘PARKES‑D’ device, and the magnitude of electrical conductivity in the BAP varies from 22 to 61 conventional units of the device. Results of studies of the functional state of the thyroid gland in dogs using the ‘PARKES‑D’ diagnostic complex are generally consistent with the biochemical parameters of the blood, therefore, the functional testing allows, with a probability of 94.4%, to determine the functional state of the gland.

Keywords: dogs, thyroid gland, bioresonance, hypofunction, hormones, ‘PARKES‑D’

References:

Bol’shakov, M. A. (2002) Physiological mechanisms of action of radio frequency electromagnetic radiation on biological objects of different levels of organization [Fiziologicheskie mekhanizmy deystviya radiochastotnykh elektromagnitnykh izlucheniy na bioob”ekty raznykh urovney organizatsii]. The dissertation thesis for the scientific degree of the doctor of medical sciences. Tomsk: Siberian State Medical University. [in Russian]

Deynekina, T. A. (2002) Effects of electromagnetic fields on the cytophysiological parameters of animal and human cells [Vliyaniya elektromagnitnykh poley na tsitofiziologicheskie parametry kletok zhivotnykh i cheloveka]. The dissertation thesis for the scientific degree of the candidate of biological sciences. Rostov-on-Don: Rostov State University. [in Russian]

Estrada, J. M., Soldin, D., Buckey, T. M., Burman, K. D. and Soldin, O. P. (2014) ‘Thyrotropin isoforms: implications for thyrotropin analysis and clinical practice’, Thyroid, 24(3), pp. 411–423. http://dx.doi.org/10.1089/thy.2013.0119

Kochieva, E. R. (2006) Evaluation of the effect of industrial frequency electromagnetic radiations on biological objects [Otsenka deystviya na biologicheskie ob”ekty elektromagnitnykh izlucheniy promyshlennoy chastoty]. The dissertation thesis for the scientific degree of the candidate of biological sciences. Vladikavkaz: Gorsky State Agrarian University. Available at: https://dlib.rsl.ru/01003291202. [in Russian]

Nechyporuk, V. M. and Korda, M. M. (2015) ‘Metabolism in hypo- and hyperthyroidism’ [Metabolizm pry hipo- ta hipertyreozi], Bulletin of Scientific Research [Visnyk naukovykh doslidzhen], 3, pp. 4–7. http://dx.doi.org/10.11603/2415-8798.2015.3.5170. [in Ukrainian]

Obuobie, K. and Jones, M. K. (2003) ‘Hyperthyroidism with low thyroid hormone’, Journal of the Royal Society of Medicine, 96(4), pp. 185–186. http://dx.doi.org/10.1177/014107680309600407

Tielens, E., Visser, T. J., Hennemann, G. and Berghout, A. (2000) ‘Cardiovascular effects of hypothyroidism’ [Cardiovasculaire effecten van hypothyreoïdie], Nederlands Tijdschrift voor Geneeskunde, 144(15), pp. 703–706. Available at: https://www.ntvg.nl/system/files/publications/2000107030001a.pdf. [in Dutch]