Ви є тут

Головна » 2018 » Науковий вісник ветеринарної медицини № 2'2018

ДЕЗІНФЕКЦІЙНІ ЗАСОБИ, СУЧАСНА ХАРАКТЕРИСТИКА ТА БЕЗПЕЧНІСТЬ ПРИ ЗАСТОСУВАННІ У ТВАРИННИЦТВІ

Ветеринарне благополуччя тваринницьких ферм, комплексів і птахофабрик багато в чому залежить від регулярного та ретельного проведення ветеринарно-санітарних заходів. Серед заходів, що спрямовані на попередження заразних хвороб тварин і боротьбу з ними, важливе місце займає дезінфекція. Під поняттям дезінфекції розуміють комплекс заходів щодо знищення у середовищі життєдіяльності людини, тварин і птиці збудників інфекційних хвороб. Основне завдання дезінфекції – розірвати епізоотичний ланцюг шляхом дії на його важливу ланку – фактори передачі збудника захворювання від джерела інфекції до сприйнятливого організму. У більшості випадків існуючі препарати та рекомендації щодо їх застосування були розраховані на великі товарні та промислові комплекси, які неповністю відповідають вимогам дрібних фермерських господарств. Більшість препаратів, що широко застосовуються, є токсичними як для людей, так і тварин (розчин натрію чи калію їдкого, хлорне вапно, фенол та інші), тому їх потрібно обережно використовувати, щоб запобігти отруєнню.

Ключові слова: ветеринарне благополуччя, ветеринарно-санітарні заходи, джерело збудника інфекції, фактори передачі збудника, сприйнятливість організму, комплекс заходів, завдання дезінфекції, дезінфікуючий засіб, тварини, безпечна та якісна продукція.

ЛЯСОТА В.П. https://orcid.org/0000-0002-2442-2174


СОКОЛОВА Л.М.


  1. Acute toxicity studies, antioxidant and in vitro antibacterial activities of extract from the barks of Ricinodendron heudoletti (Euphorbiaceae) / V. A. Oyono et al. J. Pharmacog. Phytother. 2014. № 6 (4). Р. 47–53.
  2. Ameh S. J., Obodozie O. O., Inyang U. S. Current phytotherapy – A perspective on the science and regulation of herbal medicine. J.of Med. Plants Res.  2010. Vol. 4, № 2. P. 72–81.
  3. Antibacterial activity of essential oils and their isolated constituents against cariogenic bacteria: a systematic review / S. Shayegh et al. Natur. Prod. Res.  2008. Vol. 22, № 5. P. 428–439.
  4. Fit I. N., Rapuntean G., Rapuntean S. Antibacterial effect of essential vegetal extracts on Staphylococcus aureus compared to antibiotics. Not. Bot. Hort. Agrobot. Cluj. 2009. Vol. 37, № 2. Р. 117–123.
  5. Angelova V. Healy metals in plants and oils from family Apiacene.  Bulg.j AIT. Sc, 2013. Vol. 9. №4. P. 455‒462.
  6. Babb J. Methods of cleaning and disinfection. Zentr Sterilization. 2013.  № 4. P. 227–237.
  7. Bachman С. Bioclimatologi, biometerologi and aeroiontherapi. Milan, 2012. P. 22‒25.
  8. Basilico M. Z., Basilico J. C. Inhibitory effects of some spice essential oils on Aspergillus ochraceus NRRL 3174 growth and ochratoxin A production. J. Clinical Nurs, 2009, May. Vol 8 (3). P. 199‒204.
  9. Buckle J. Aromatherapy in perianesthesia nursing. J. Perianesth Nurs., 2014. Dec. Vol 14 (6). P. 336‒344.
  10. Burns E.E. An investigation into the use of aromatherapy in intrapartum midwifery practice. J. Altern. Complement Med. 2014. Apr., Vol 6 (2). P. 141‒147.
  11. Cannard G. The effect of aromatherapy in promoting relaxation and stress reduction in a general hospital. Complement Ther Nurs. Midwifery, 2016. Apr., Vol 2 (2). P. 38‒40.
  12. Ceschel G.C. In vitro permeation through porcine buccal mucosa of Salvia desoleana Atzei & Picci essential oil from topical formulations. Int. J. Pharm.,  2015. Feb., Vol 15., 195 (1‒2). P. 171‒177.
  13. Cowan M.M. Plant products as antimicrobial agents. Clin. Microbiol. Rev., 2009. Oct., Vol 12 (4). P. 564‒582.
  14. Current phytotherapy – a perspective on the science and regulation of herbal medicine / Sunday J. et al. J.Med. Plants Res. 2010. Vol. 4, № 2. P. 72–81.
  15. Dafercra J. Characterization of essential oils from lamiaceal species by fourier transform raman spectroscopy. London, 2012. V.50. № 20. P. 550‒ 557.
  16. Dalton M. Isles Early use of inhaled nedocromil sodium in children following an acute episode of asthma. Thorax, 2014. Apr. Vol. 54 (4). P. 308‒315.
  17. Diego M.A. Galamaga Aromatherapy positively affects mood, EEG patterns of alertness and math computations. Int. J. Neurosci., 2015. Dec. Vol 96 (3‒4). P. 217‒224.
  18. Effects of microbicide based on lactic acid and metal nanoparticles on laboratory animals / Ponomarenko G.V., et al. Ukrainian Journal of Ecology. 2017. № 7(4). P. 482–485.
  19. Eremenko A.E. Volatile fractions of essential oil-based phytoncides as a component of therapeutic-rehabilitative complexes in chronic bronchitis. Tikhomirov. Ter. Arkh., 2014. Vol 59 (3). P. 126‒130.
  20. European Pharmacopoeia. 6th ed. Strasbourg : Council of Europe, 2017.  3261 p.
  21. Flamini G. Antimicrobial activity of the essential oil of Calamintha nepeta and its constituent pulegone against bacteria and fungi. PhytotherRes, 2014. Jun., Vol 13 (4). P. 349‒351.
  22. Gilbert Р., Moore L. Cationic antiseptics: diversity of action under a common epithet. Journal of Applied Microbiology. 2015. Vol. 99.  Р. 703–715.
  23. Ghelardini С., Galeotti N. Local anaesthetic activity of the essential oil of Lavandula angustifoiia. Planta Med., 2014. Dec, Vol 65 (8). P. 700–703.
  24. Hammer K.A., Carson C. F., Riley T. V. Antimicrobial activity of essential oils and other plant extracts. J. Appl. Microbiol. 2015. Jun., Vol.86 (6). P. 985‒990.
  25. Hay I. C., Jamieson M., Ormerod A. D. Randomized trial of aromatherapy. Successful treatment for alopecia areata. Arch. Dermatol., 2013. Nov., Vol.134 (11). P. 1349‒1352.
  26. Kacperek L. Patients views on the factors which would influence the use of an aromatherapy massage out-patient service. Complement Ther. Nurs. Midwifery, 2014. Apr., Vol. 3 (2). P. 51‒57.
  27. Khadartsev A. Theory and practice of novaday aeroionization (in commemoration of the 100-th anniversary of A.L.Chishevsky). Вестник новых медицинских технологий,  2013.T.1V. №1. С. 9‒10.
  28. Kim H. M., Cho S.H. Lavender oil inhibits immediate-type allergic reaction in mice and rats. J. Pharm. Pharmacol., 2009. Feb., Vol. 51 (2). P. 221‒226.
  29. Kite S. M., Maher E. J. Development of an aromatherapy service at a Cancer Centre. Palliat Med., 2009. May.,
    Vol. 12 (3). P. 171‒180.
  30. Kovalenko V. L., Ponomarenko O. V., Korniyenko V. I. Antibacterial effect of vegetable essential oils based on metal nanoparticles in vitro. Journal for Veterinary Medicine, Biotechnology and Biosafety.  2017. Vol. 3. I. 3. P. 34–36.
  31. Kovalenko V. L., Ponomarenko G. V., Garkavenko V. M. Changes in lipid composition of Escherichia coli and Staphylococcus areus cells under the influence of disinfectants Barez, Biochlor and Geocide. Ukrainian Journal of Ecology, 2018. Vol. 8, N 1. P. 547–550.
  32. Krueger A. The biological effects of gaseous ions in aeroiontherapi. Milan. 2009. P.77‒79.
  33. Kukhtyn  M. D.,  Kovalenko V. L., Horyuk Y. Bacterial biofilms formation of mastitis cows pathogens. Journal for Veterinary Medicine, Biotechnology and Biosafety.  2016, Vol. 2, Issue 4, P. 30–32.
  34. Kukhtyn M. D., Kovalenko V. L., Pokotylo O. S.Staphylococcal contamination of raw milk and handmade dairy products, which are realized at the markets of Ukraine. Journal for Veterinary Medicine, Biotechnology and Biosafety. 2017,
    Vol. 3, Issue 1. P. 12–16.
  35. Lahlou S., Leal-Cardoso J. H. Cardiovascular effects of the essential oil of Croton nepetaefolius in rats: role of the autonomic nervous system. Planta Med., 2015. Aug., Vol.65 (6). P. 553‒557.
  36. Lawrence B. A planning scheme to evaluate new aromatic plants for the flavour and fragrance indusries. London, 2013. Flav. 8. P. 64 ‒66.
  37. Leal-Cardoso J. H., Fonteles M. C. Pharmacological effects of essential oils of plants of the northeast of Brazil. An. Acad. Bras. Cienc, 2016. Vol. 71.(2). P. 207‒213.
  38. Lee C. K., Kim H. Screening and isolation of antibiotic resistance inhibitors from herb materials-resistance inhibition of volatile components of Korean aromatic herbs. Arch. Pharm. Res., 2014. Feb., Vol. 21 (1). P. 62‒66.
  39. Li B., Pinch H., Birt D. F. Influence of vehicle, distant topical delivery, and biotransformation on the chemopreventive activity of apigenin, a plant flavonoid, in mouse skin. Pharm. Res., 2015. Oct.,Vol. 13 (10). P. 1530‒1534.
  40. Lis-Balchin M., Hart S. Studies on the mode of action of the essential oil of lavender (Lavandula angustifolia P. Miller). Phytother. Res., 2017. Sep., Vol.13 (6). P. 540‒542.
  41. Lorente I., Ocete M. A. Bioactivity of the essential oil of Bupleurum fruticosum. J. Nat. Prod., 2014. Mar.-Apr., Vol. 52 (2). P. 267‒272.
  42. Mangena T., Muyima N. Y. Comparative evaluation of the antimicrobial activities of essential oils of Artemisia afra, Pteronia incana and Rosmarinus officinalis on selected bacteria and yeast strains. Lett. Appl. Microbiol, 2015. Apr., Vol. 28 (4). P. 291‒296.
  43. Meepagala K. Antifungal constituents of the essential oil fraction of Artemisia dracunculus L. var dracunculus (USA). J. agr. Food chem., 2012. Vol. 50. №24. P. 698‒699.
  44. Michel D., Zach G.A. Antiseptic efficacy of disinfecting solutions in suspension test in vitro against methicillin-resistant Staphylococcus aureus, Pseudomonas aeruginosa and Escherichia coli in pressure sore wounds after spinal cord injury.Dermatology, 2014. Vol. 195. Suppl 2. P. 36‒41.
  45. Mignon B. R., Losson B. J. Efficacy of a phyto-aromatic gel against auricular manage in rabbits and carnivores.Vet. Rec, 2015. Apr. Vol. 6 /138 (14). P. 329‒332.
  46. Obrazhei A. F. Kvachov V. G., Ayshpur O. E. Essential oils an alternative to antibiotics in respiratory infections treatment and prophylaxis in pigs. Ветеринарна біотехнологія. Бюлетень. К., 2017. №12. С. 147‒150.
  47. Papadopoulos A., Wright S., Ensor J. Evaluation and attributional analysis of an aromatherapy service for older adults with physical health problems and carers using the service. Complement. Ther. Med., 2009. Dec, Vol. 7 (4). P. 239‒244.
  48. Pattnaik S., Subramanyam V., Kole C. Antibacterial and antifungal activity often essential oils in vitro. Microbios., 2016. Vol. 86 (349). P. 237‒246.
  49. Peana A. T., Moretti M. D., Juliano С. Find other articles with these Authors. Planta. Med., 2009. Dec, Vol. 65 (8).
    P. 752‒754.
  50. Perez С., Agnese A. M., Cabrera J. L. The essential oil of Senecio graveolens (Compositae): chemical composition and antimicrobial activity tests. J. Ethnopharmacol., 2009. Jul., Vol. 66 (1). P. 91‒96.
  51. Ponomarenko G. V., Kovalenko V. L., Ponomarenko O. V. Research of the influence of disinfectants on the rate of absorption of oxygen by cells of escherichia coli and staphylococcus aureus bacteria. Journal for Veterinary Medicine, Biotechnology and Biosafety. 2017. Vol. 3, Issue 4. P. 13–15.
  52. Raharivelomanana P. J., Terrom G. P. Study of the antimicrobial action of various essential oils extracted from Malagasy plants. II: Lauraceae. Arch. Inst. Pasteur. Madagascar, 2009. Vol. 56 (1). P. 261‒271.
  53. Rai M. K., Qureshi S. Pandey In vitro susceptibility of opportunistic Fusarium spp. to essential oils. Mycoses., 2009. Apr. Vol. 42 (1‒2). P. 97‒101.
  54. Richards J. Withdrawal of Disinfectant Hit by Safety Fears. BBC News on Line. Health. 2012. № 22. P. 688.
  55. Rotter M. Hand disinfection – harmonizing evaluation procedures in Europe. Alpe. Adria. Microbiol. J. 2014. Vol. 2. P. 87–101.
  56. Russel A. D. Bacterial resistance to disinfectants: present knowledge and future problems. J. of Hospital Infection. 2009. Vol. 43. P. 57–68.
  57. Russel A. D. Biocide use and antibiotic resistance: the relevance of laboratory findings to clinical and environmental situations. The Lancet Infectious Diseases. 2013. Vol. 3. Is. 12. P. 794–800.
  58. Russel A. D. Similarities and differences in the responses of microorganisms to biocides. J. of Antimicrobial Chemotherapy. 2013. Vol. 52, № 5.  P. 750–763.
  59. Sai Ram M., Sharma S. K. Immunomodulatory effects of NIM-76, a volatile fraction from Neem oil. J. Ethnopharmacol., 2015. Jan. Vol. 55 (2). P. 133‒139.
  60. Sanna P., Bazzoni E., Moreitti M. Mucroencapsulated essential oils active against Indian-meal1 moth (Italia). Bol. Sanid. Veget. Plagas, 2014. Vol.30, № ll. P. 125‒132.
  61. Shahi S. K., Shukla A. C. Broad spectrum herbal therapy against superficial fungal infections. Skin. Pharmacol. Appl. Skin. Physiol., 2015. Jan.-Feb., Vol. 13 (1). P. 60‒64.
  62. Shevrygin B. V., Fedorova T. V., Pekli F. F. Natural ether oils in the treatment of chronic pharyngitis in children in pediatric practice. Vestn. Otorinolaringol. 2017. Vol. (2). P. 52‒53.
  63. Shinder D., Raspacovski V. Lack of response of laying hens to relation hudidity at hihg adbeient temperature. Brit. Doutry Sc. 2013. Vol. 41, no. №5. P. 660‒663.
  64. Siani A. Lialool from lippie alba: study of the reproducibieity of the essential oil profile and the enentiomeric purity (Brazilia). J. arg. food chem. 2012. Vol. 50. №12. P. 351‒352.
  65. Sow A. I., Koyalta D. Antibacterial activity of essential oils from mint in Senegal. Dakar. Med., 2015. Vol. 40 (2).
    P. 193‒195.
  66. Suresh B., Sriram S. Anticandidal activity of Santolina chamaecyparissus volatile oil. J. Ethnopharmacol., 2016. Jan., Vol. 55 (2).  P. 151‒159.
  67. Tassou C. C., Drosinos E. H., Nychas G. J. Effects of essential oil from mint (Mentha piperita) on Salmonella enteritidis and Listeria monocytogenes in model food systems at 4 degrees and 10 degrees С. J. Appl. Bacteriol, 2015. Jim., Vol. 78 (6). P. 593‒600.
  68. Tirillini B., Velasquez E. R., Pellegrino R. Chemical composition and antimicrobial activity of essential oil of Piper angustifolium. Planta. Med, 2016. Aug, Vol. 62 (4). P. 372‒373.
  69. Trevisan D., Rodrigues C., Faguin V. Nutricao mineral, crescimento e teor de oleo essential da menta em solucao nutritive sob diferentes concentracoes de fosforo e epocas coleta (Brazilia). Hortic. Brazil. 2014, Vol.22. №3. P. 573‒578.
  70. Upadhyay R. K., Dwivedi P., Ahmad S. Screening of antibacterial activity of six plant essential oils against pathogenic bacterial strains. Asian J. Med. Sci. 2012. № 2 (3). Р. 152–158.
  71. Vysokos M. P., Milostiviy R. V., Tikhonenko V. A. Technical support of aerosol processing for large groups of animals under the conditions of the industrial complex. Science and Technology Bulletin of SRC for Biosafety and Environmental Control of AIC. 2017. T. 5 (1). Р. 60‒ 64.
  72. Aboh M. I., Oladosu P., Ibrahim K. Antimicrobial activities of some brands of household disinfectants marketed in Abuja municipal area council, Federal capital territory, Nigeria. American Journal of Research Communication. 2013.
    Vol. 1(8). P. 172–183.
ДолученняРозмір
PDF icon visnyk_vet-2-2018-lyasota_87-99.pdf279.19 КБ
2018
Науковий вісник ветеринарної медицини № 2'2018