The influence of electromagnetic radiation of “PARKES-L” device on metabolism in puppies
Ten puppies of the German shepherd breed at the age of up to 60 days were divided into two groups – control and experimental. The influence of low-frequency electromagnetic radiation of “PARKES-L” device on the indexes of exchange of proteins, fats, carbohydrates and activity of key enzymes of carbohydrate and protein exchange: aspartat-aminotransferase, alanine-aminotransferase and laktat dehydrogenase were determined. The “PARKES-L” device which has the range of working frequencies from 0,1 hertz to 30 kHz, the action of device is based on the reflex mechanism of action of weak low-frequency electromagnetic impulses on the receptors of skin (biologically active areas) of animals. The effect of device is obtained due to radiation of electromagnetic impulses by infrared light-emitting diodes, which are at the back and front sides of the device. It was determined that under the influence of electromagnetic radiation the processes of intermediate exchange of organic compounds are not changed, but anabolic processes in tissues increase which are in the process of growth and development of puppies. Therefore, till the end of the experiment it was determined that living mass of puppies of experimental group exceeded control group by 580 grams. We also proved that under the influence of electromagnetic radiations the use of nitrogen contained metabolites increased, taking into account the increase of whole protein concentration and protein fractions. Energy exchange also gets better due to the increase of aerobic oxidation that is confirmed by the increase of oxidizing phosphorylating reaction and reliable increase of kreatinin concentration. The increase of lipid fractions (triglycerides and phosphatides) and concentration of lipid fractions also confirm the strengthening of anabolic processes in tissues. It was determined by the research the increase of free amino acid in blood of puppies of experimental group on the background of diminishing of nitrogen ammonia level that is related to the increase of biosynthesis of amino acid in tissues by the mechanism of amination of keto-acids due to better use of non-protein nitrogen. Under the influence of “PARKES-L” radiation the activity of aminotransferase (aspart-aminotransferase, alanine-aminotransferase and laktat-dehydrogenase) increased for certain (Р ˂ 0.001) that testifies the increase of exchange of proteins and carbohydrates level. It is determined in our research that the influence of low-frequency electromagnetic radiation stimulates the growth and development of puppies of the German shepherd breed. Functional activity of the systems of haemopoiesis, digestion and processes of biosynthesis of proteins, fats and carbohydrates and also activity of key enzymes of protein and carbohydrate exchanges increased under the influence of “PARKES-L” device.
Gajduk, M.B., Gutyj, B.V., & Gufrij, D.F. (2016). Therapeutic effectiveness of the drug RBS – DOG as immune modulating means in the treatment of dogs with wounds at hypo ergic type of inflammation. Scientific Messenger LNUVMBT named after S.Z. Gzhytskyj, 18, 2(66), 35–39. doi: 10.15421/nvlvet6608.
Kazeev, G.V. (2000). Veterinarnaja akupunktura. RIO RGAZU. M. (in Russian).
Kaznacheev, V.P. & Mihajlova, L.M. (1985). Bioinformacionnaja funkcija estestvennyh jelektromagnitnyh polej. M.: Nauka (in Russian).
Kostyshyn, L.-M.E., & Stefanyk, V.Yu. (2018). Influence of exogenic and endogenic factors for the development of perinatal pathology in puppies. Scientific Messenger of Lviv National University of Veterinary Medicine and Biotechnologies, 20(83), 240–246. doi: 10.15421/nvlvet8347.
Lisova, V., & Radsikhovskii, N. (2018). Pathomorphological diagnostics of enteritis of viral etiology in dogs. Scientific Messenger of Lviv National University of Veterinary Medicine and Biotechnolo-gies, 20(83), 299–303. doi: 10.15421/nvlvet8360.
Pavlusenko, I.I. (2013). Fizioterapevticheskaja apparatura “PARKES-L”. Materialy naukovo-praktychnoi konferentsii z mizhnarodnoiu uchastiu “Suchasni metody biorezonansnoi diahnostyky ta elektromahnitna terapiia”. Kyiv, 71–73 (in Russian).
Phillips, C.J. & Schofield, S.A. (1989). The effect of supplementary light on the production and behaviour of dairy cows. Anim. Product, 48(2), 293–303. doi: 10.1017/S0003356100040290.
Plahotin, M.V. (1966). Igloterapija v veterinarii. M.: Kolos (in Russian).
Said, W., Stybel, V.V., Gutyj, B.V., & Prijma, O.B. (2018). A modern look at the problem of toxocarosis in dogs. Scientific Messenger of Lviv National University of Veterinary Medicine and Biotechnologies, 20(83), 411–416. doi: 10.15421/nvlvet8380.
Samsonjuk, Ju.Z., Lysenko, V.P., & Limanskij, Ju.P. (1994). Netradicionnye metody diagnostiki i terapii. Kiev: Zdorov'e (in Russian).
Truhachev, G.Ju. (2009). Primenenie JeMI krajnevysokih chastot (KVCh) 120 i 150 GGc millimetrovogo diapa-zona dlja korrekcii fitoplacentarnoj nedostatochnosti u sobak: Diss.kand. veterinarnyh nauk. Saratov (in Russian).
Zhukova, I.O., Svitlychna–Kulak, Yu.S., & Longus, N.I. (2016). Correction of stateof antioxidant protection in dogs when poisoned byneoverm. Scientific Messenger LNUVMBT named after S.Z. Gzhytskyj, 18, 3(70), 95–99. doi:10.15421/nvlvet7022.
Zhuravlev, O.Y., Nedelina, O.A., Hunchak, V.M., & Gutyj, B.V. (2016). The antioxidant action of biologically active additives “sylimask” in dogs after deworming. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies, 18(1), 226–229. Retrieved from https://nvlvet.com.ua/index.php/ journal/article/view/76.
Abstract views: 27 PDF Downloads: 17
This work is licensed under a Creative Commons Attribution 4.0 International License.