RESEARCH ON INFLUENCE OF ELECTROMAGNETIC RADIATION ON ENDOMETRITIS TREATMENT IN DAIRY COWS

Authors

  • Л. М. Михайлова State Agrarian and Engineering University in Podilya,
  • О. В. Думанський State Agrarian and Engineering University in Podilya,

Keywords:

treatment, therapy, endometritis, electromagnetic radiation, cattle, microorganisms, efficiency

Abstract

According to literary sources from 14% to 40% of cows are ill in postpartum endometritis, and at some farms this number is up to 90% of cows. Endometritis causes risks of fertilization failure from 17% to 40%,increasing the period of time between calving and insemination – 40 to 60 days, reducing animal yield and milk production from 12 to 18%. The study is based on the analysis of literary sources on the treatment of one of the most common and dangerous animal diseases known as endometritis with the help of electromagnetic radiation of a millimeter range. The study provides the method of endometritis treatment in dairy cows based on electromagnetic waves of a millimeter range with certain parameters of electromagnetic field frequency, power flow density, exposure to Actinomyces. The result of the developed technology is experimental research on endometritis treatment in dairy cows with the help of intrauterine irradiation and electromagnetic therapy for endometritis in cows through animal skin over the white abdominal line. The total therapeutic potency of intrauterine irradiation is 97.8%, and endometritis treatment in dairy cows through animal skin over the white abdominal line is 91.7%

Author Biographies

Л. М. Михайлова, State Agrarian and Engineering University in Podilya

PhD, Associate Professor

О. В. Думанський, State Agrarian and Engineering University in Podilya

PhD, Associate Professor Department of Agricultural Machines and Mechanized Technologies

References

Honcharov, V. P., & Karpov, V. A. (1981). Profylaktyka y lechenye hynekolohycheskykh zabolevanyi korov. Moskow : Rosselkhozyzdat [in Rus.].

Medvedev, H. F. (1981). Poslerodovye izmenenija v polovyh organah korov. Veterynaryia, 1, 58–61.

Dumanskyi, O.V. (2014). Likuvannia elektromahnitnym vyprominiuvanniam [Treatment with electromagnetic radiation ]. Zbirnyk naukovykh prats PDATU, 22, 474-477 [in Ukr.].

Dumanskyi, O.V., Mykhailova, L.M. & Melnyk, V.V. (2016). Obgruntuvannia typu vyprominiuvacha dlia likuvannia endometrytu tvaryn [Justification of the type of radiator for the treatment of endometritis in animals]. Zbirnyk naukovykh prats PDATU :, 24, 108-113 [in Ukr.].

Cherkes, F.K., Bogoyavlenskaya, L. B. & Belskaya N.A. (1986). Microbiology [Microbiology]. Moscow: Medytsyna. [in Rus.].

Laboratornaya diagnostika gnoyno-vospalitelnyih zabolevaniy, obuslovlennyih asporogennyimi, anaerobnyimi mikroorganizmami (1988). Kharkov : Yn-t mykrobyolohyy y ymmunolohyy ym. Mechnykova. [in Ukr.].

Vynarskyi M. S., & Lure M.V. (1975) Planyrovanye еksperymenta v tekhnolohycheskykh yssledovanyiakh. [Planning an experiment in technology research] Kyiv : Tekhnyka. [in Ukr.].

Potapskyi, P., Harasymchuk, Y., Kozak, А., & Mykhailova, L. (2015). [Theoretical justification for the creation of a pulse generator for increasing the immunity of animals]. MOTROL. Commision of Motorisation and Energetics in Agriculture, 5, 62-65.

Torchuk, M., Mihaylova, L., Dubik, V., & Slobodyan, S. (2015). [Theoretical justification for the creation of a pulse generator for increasing the immunity of animals] MOTROL. Commision of Motorisation and Energetics in Agriculture, 5, 82-87.

Mihaylova L.N., & Mazur V.A. (2015). Ispolzovaniya elektromagnitnyih tehnologiy v medetsine i veterenarii [The use of electromagnetic technologies in medecine and wind energy] Energozberezhennya, energetika, energoaudit. Zagalnoderzhavniy naukovo-virobnichiy zhurnal, 9, 56-62. [in Russ].

Mihaylova L.N. (2012). Primeneniya elektromagnitnogo polya kraynevyisokoy chastotyi dlya lecheniya zhivotnyih. [The application of an extremely high frequency electromagnetic field for the treatment of animals]. Vostochno-Evropeyskiy zhurnal peredovyih tehnologiy, 1, 13-16. [in Russ.]

Dumanskiy, A., & Mihaylova, L. (2015). [Experimental studies of electronic systems and the method of therapy of endometritis of cows with millimeter electromagnetic radiation.] MOTROL. Commission of Motorisation and Energetics in Agriculture, 5, 29-34.

de Boer, M. W., LeBlans, S.J., Dubuc, J., Meier, S., Heuwieser, W., Arlt, S., Gilbert, R.O., & McDougall, S. (2014). Invited review: Systematic review of diagnostic tests for reproductive-tract infection and inflammation in dairy cows. Journal of Dairy Science, Vol. 97 No. 7, 3983-3999.

Suharjito, Diana, Yulyanto, & Ariadi Nugroho. (October 13-14, 2017). Mobile Expert System Using Fuzzy Tsukamoto for Diagnosing Cattle Disease. 2nd International Conference on Computer Science and Computational Intelligence 2017, ICCSCI 2017, 13-14 October 2017, Bali, Indonesia. 27-36.

Brodzki, P., Bochniarz, M., Brodzki, A., Wrona, Z., & Wawron, W. (2014). Trueperella pyogenes and Escherichia coli as an etiological factor of endometritis in cows and the susceptibility of these bacteria to selected antibiotics. Polish Journal of Veterinary Sciences, 17, 657–664.

Bicalho R, Machado V, Bicalho M, Gilbert R, Teixeira A, Caixeta L, & Pereira R. (2010). Molecular and epidemiological characterization of bovine intrauterine Escherichia coli. Journal of Dairy Science, 93, 5818–5830.

Lif Rødtness Vesterby Knudsen, Cecilia Christensen Karstrup, Hanne Gervi Pedersen, Øystein Angen, Jørgen Steen Agerholm, Eva Láadal Rasmussen, Tim Kåre Jensen, & Kirstine Klitgaard. (2016). An investigation of the microbiota in uterine flush samples and endometrial biopsies from dairy cows during the first 7 weeks postpartum. L.R.V. Knudsen et al. Theriogenology, 86, 642–650.

Kasimanickam, R., Duffield, T.F., Foster, R.A., Gartley, C.J., Leslie, K.E., & Walton, J.S. (2004). Endometrial cytology and ultrasonography for the detection of subclinical endometritis in postpartum dairy cows. Theriogenology, 62, 9–23.

Denis-Robichaud, J., & Dubuc, J. (2015). Randomized clinical trial of intrauterine cephapirin infusion in dairy cows for the treatment of purulent vaginal discharge and cytological endometritis. Journal of Dairy Science, Vol. 98 No. 10, 6856–6864.

Bonnet, B.N., Martin, S.W., Gannon, V.P., Miller, R.B., & Etherington, W.G. (1991). Endometrial biopsy in Holstein-Friesian dairy cows. III. Bacteriological analysis and correlations with histological findings. Can J Vet Res, 55, 168–73.

Runciman, D. J., Anderson, G. A., & Malmo, J. (2009). Comparison of two methods of detecting purulent vaginal discharge in postpartum dairy cows and effect of intrauterine cephapirin on reproductive performance. Aust. Vet. Journal, 87, 369–378.

How to Cite

Михайлова, Л. М., & Думанський, О. В. (2018). RESEARCH ON INFLUENCE OF ELECTROMAGNETIC RADIATION ON ENDOMETRITIS TREATMENT IN DAIRY COWS. Podilian Bulletin: Agriculture, Engineering, Economics, (27), 185–192. Retrieved from http://pb.pdatu.edu.ua/article/view/135123

Issue

Section

Technical Sciences