Comparative Assessment of the Feasibility of Some Probiotic Cultures as a Means for Sanitization of Cows ’ Udders

The study presents the results of the comparative evaluation of the preventive treatment of udder with probiotic agents and agents of chemical origin. The obtained data showed the improvement of milk quality and reduction in the number of somatic cells in milk, when using probiotic agents as a means of sanitization of cows’ udders. Research was conducted at dairy farms of the Almaty region of the Republic of Kazakhstan. Bi olo gy a nd Micine ISSN: 0974-8369 Biology and Medicine Citation: Narbayeva D, Myrzabekov Z, Ratnikova I, Gavrilova N, Barakhov B, et al. (2016) Comparative Assessment of the Feasibility of Some Probiotic Cultures as a Means for Sanitization of Cows’ Udders. Biol Med (Aligarh) 8: 345. doi:10.4172/0974-8369.1000345.


Introduction
Th e enhancement of the milk productivity of dairy cows and improvement of sanitary-hygienic characteristics of milk are aff ected by diff erent diseases of the mammary gland of animals. Among pathologies of the mammary gland, mastitis ranks the fi rst disease. Th e excessive use of chemical-containing drugs leads to the formation of a large number of resistant strains of microorganisms that signifi cantly reduces the therapeutic eff ect of the antimicrobial agents as well as promotes the manifestation of toxic and allergic reactions in humans and animals, which are accompanied by severe lesions of the parenchymatous organs and the nervous system. In this regard, it is necessary to pay more attention to the development of new highly eff ective prophylactic agents, which include also probiotics [1,2].
Currently, probiotic preparations are not widely used in the treatment and prevention of mastitis. Probiotics are living microorganisms, whose action is based on the antagonistic relationships between pathogenic microorganisms and probiotic cultures, which are part of the agents employed [3,4]. Th e treatment of cows-udder teats with probiotic agents leads over time to the creation of a new microbiocenosis in which the development of pathogenic microfl ora is suppressed by cultures of probiotic bacteria, competing for food and habitat according to the principle of antagonism [5].
Th e objective of our research is to fi nd and develop the safest and most eff ective means to prevent the disease of mammary gland in cows and improve milk quality.

Materials and Methods
Works on selection and study of the properties of probiotic cultures were carried out at the Department of Veterinary-Sanitary Expertise and Hygiene of Kazakh National Agrarian University and at the Institute of Microbiology and Virology of the Ministry of Education and Science of the Republic of Kazakhstan (MES RK).
Research on the impact of the agents containing probiotic cultures on the health status of the mammary gland and milk quality was conducted at the facilities of Agricultural Breeding Cooperative (ABC) "Almaty" and Educational Research and Production Center "Bayserkeagro" (ERPC) located in Talgar district of Almaty region.
Th e main stage of our research was to determine the eff ectiveness of probiotic agents for sanitization of the udder in a production environment. Th e general characteristics of the farming enterprises are shown in Table 1.
Th e scientifi c and production experiment was carried out in two groups of lactating cows-experimental and control. Th e experimental group consisted of 24 animals, while the control group included 12 animals. Th e udders of the cows in the experimental group were treated with probiotic agents, while those of the cows of the control group were treated with the "Zorka" and "Dipal" preparations. Th e animals were kept in diff erent experimental research bases. Th e experiment was carried out during 3 weeks.
Th e research object was lactic-acid bacteria, which were cultivated in an Man, Rogosa and Sharpe (MRS)-nutrient medium at a temperature of 30-328C for 20-24 h.
Antagonistic activity in liquid cultures was determined by the method of diff usion into agar of the test cultures isolated from milk and fl ush from the udder skin surface: Staphylococcus aureus, Staphylococcus intermedium, Staphylococcus hyicus, Cedecia species, Esherichia coli, Kluyvera ascorbata, Klebsiella oxytoca, Enterobacter intermedius, and Serratia liquefaeciens.
To sanitize udder teats aft er milking, we used 10% probiotic solutions, which were sprayed immediately aft er removing the milking machine. In the control group, sanitization of the udder was carried out according to the conventional farm technology.
Th e general microbial load of the udder-teats' skin before and aft er the application of probiotic preparation was studied by taking swabs from the surface of the studied objects and dilutions [6].
To determine the amount of Escherichia coli, serial ten-fold dilutions were made, and then 1 cm3 of washings from each glass tube Tested cows were under constant surveillance for 3 weeks. The control milking of cows in both experimental and control groups was carried out for laboratory analysis, which included the determination of somatic cells in milk after using preparations, as well as the determination of fat, protein, density, and nonfat solids of milk (MSNF) using milk analyzers "MilkosanFT1" and "FossomaticFT1". The milk samples were placed in a sterile container for collecting biological fluids.
The mathematical processing of obtained results was performed according to standard techniques [9] using the Microsoft Excel 2007 software package.

Results and Discussion
To create probiotic agents for udder sanitization in order to prevent mastitis and improve the sanitary quality of milk, we have determined the antimicrobial activity against potential causative agents of mastitis in 30 strains of lactic acid bacteria, among which the most active were the four following strains-Lactobacillus plantarum 2B/A-6 and 14D, Lactobacillus brevis B-3/A-26, and Lactobacillus acidophilus 27W. The antagonistic activity of these strains is presented in Table 2.
The analysis of the presented data ( Table 2) shows that the diameter of the growth-inhibition zones, when using probiotic cultures, varies within the range of 12.0-20.0 mm for the abovementioned microorganisms, which are the causative agents of mastitis in these farms. This indicator is assessed as "sensitive" according to the standard method (a microorganism is resistant to the action of the preparation if the zone of no growth does not exceed 10 mm; if the zone is 11-14 mm, the preparation is assessed as "low-sensitive"; 15-24 mm, "sensitive", and over 25 mm, "highly sensitive").
A further goal of the research was to determine the effectiveness of tested probiotic agents used for sanitization of the udder in a production environment.
We studied the microbial load of the udder teats' skin before treatment and 1, 2, 3, 4, and 5 h after treatment with probiotic agents as well as sanitizing agents used in the farms ( Table 3).
The analysis of the results obtained when studying the total microbial load of the udder skin shows that the indicator characterizing the condition of udder teats' skin is about the same in the cows from experimental and control groups (Table 3). Subsequently, after the treatment of the specified areas of the udder skin with probiotic cultures, the total bacterial load was much greater. At that, it was found was transferred to Kessler media with lactose; at that, a swab was placed into the glass tube with the medium, and then the remaining flushing fluid was transferred.
The Kessler media inoculations were incubated at 378C and inoculated in a dense Endo agar after 18-24 h. In the case of the medium's color change or its opacity, the inoculation was produced from Chemical Oxygen Demand (COD) medium.
The inoculations were placed in the thermostat at a temperature of 378C for 24 h and then examined. The colonies, which were suspicious or typical for coliforms, were used for the preparation of smears, which were subjected to Gram stain and microscopy [7]. To detect Staphylococcus aureus, the inoculation of swabs was carried out similarly, using 6.5% yolk-salt agar as the nutrient medium. The cups with inoculations were incubated at a temperature of (37 6 1)8C for 24-48 h. After incubation, the inoculations were examined with regard to the growth of characteristic colonies. On egg-yolk salt agar, Staphylococcus aureus colonies have the shape of flat disks with smooth edges 2-4 mm in diameter. They have white, yellow, cream, lemon, and golden colors. The colonies are surrounded by a rainbow ring and a zone of medium turbidity. At least five characteristic colonies were taken from each Petri dish and reinoculated on the nutrient agar slant surface, though without a supplement of sodium chloride and egg-yolk emulsion. Inoculations were incubated in a thermostat at (37 6 1)8C for 24 h. The grown colonies were examined with regard to the Gram staining [8].
To determine the lactic acid bacteria, we used lactobac agar. The inoculations were placed into the thermostat at a temperature of 378C for 24 h. The results were evaluated by counting grown colonies.   80.4-85.7% when treating with "Zorka" and "Dipal" preparations, respectively. The reduction of bacteria of this group was 76.8 and 91.2%, respectively.
The next stage in our work was to study the effect of probiotic agents on the milk-quality parameters. Mastitis, that is, inflammation of the mammary gland occupies a special place among the diseases of cows, causing reduced milk production as well as deterioration of sanitary and technological properties of milk [10]. With the disease of mastitis, the lactiferous capability of mammary-gland cells is reduced along with the synthesis of fat, casein, and lactose. The amount of milk solids decreases, while the amount of whey proteins increases. Milk contains increased number of bacteria, which cause mastitis, white blood cells (somatic cells), and enzymes (catalase, lipase); it acquires a salty-bitter taste. Acidity (5-138T) and density (1,024-1,025 kg/m3) of milk reduce. The admixture of milk obtained from animals with subclinical form of mastitis reduces dry matter content, increases the bacterial load of bulk that the increase in the total bacterial load of udder teats' skin in cows of experimental group was mainly due to the dominance of bacteria of the tested probiotic cultures.
In the experimental group, the amount of conditionally pathogenic microflora is significantly reduced as compared to the control. Also it was revealed that the bactericidal effect is mostly clearly manifested 2-3 h after sanitization of the udder. In particular, the number of Staphylococcus aureus bacteria, when treating udder teats' skin with probiotic agents, reduced by 80.3-88.8%, respectively, while when treating teats with "Zorka" and "Dipal" preparations, the reduction in the number of bacteria of the specified group amounted to 76.2 and 90.8%, respectively. It should be noted that probiotic agents and "Depal" preparation exert higher antibacterial effect in comparison with the "Zorka" preparation.
The same pattern is observed against E. coli when treating udder teats with probiotic agents. The number of E. coli decreased by

Lactobacillus brevis B-3/A-26
Before treatment 296.0 6 17.  proves the effectiveness of application of probiotic agents as a means of sanitization of the udder. In the control group of animals, the level of protein increased by 3.1%, whereas fat content decreased on the contrary by 2.3%. However, it should be noted that when using the "Dipal" preparation, the milk quality was also high. Nevertheless, probiotic agents have advantage, which consists in the fact that they are more gentle sanitation means. The study of bulk milk from cows of experimental and control groups showed that after 3 weeks of daily use of probiotic agents as udder sanitizing means, the number of somatic cells decreases by 2.9 times.
Thus, the number of staphylococci in the milk of the cows in experimental group, when treating an udder with probiotic agents, decreased by 79.1-84.5%; while in the control group, by 56.7 and 84.2%, respectively. The number of streptococci in the cows of the experimental group decreased by 74.5-86.8%; whereas in the control group, by 65.8-87.5%. The same trend was observed in the total bacterial load of milk. It should be noted that no coliform bacteria were found in the milk from the cows of experimental group. milk, and worsens its technological properties. It is usually infected by heat-resistant and biologically active staphylococci, whose inactivation is achieved at a temperature of 858C for 30 min or at 908C for 5 min, whereas staphylococcal toxin is destroyed only through sterilization for 30 min. Such milk is less thermally resistant and is poorly clotting by enzyme rennet. Besides, biochemical processes of ripening in such milk are quite sluggish. Admixing 15-25% of the milk from cows sick with mastitis reduces the quality of the butter, cottage cheese, sour cream, and fermented milk drinks; cheeses produced from such milk have defects of taste, texture, and pattern [11]. In this context, changes in the indicators such as density, acidity, somatic cells, and microbial load can determine the sanitary and hygienic characteristics and quality of milk (Tables 4 and 5).
The analysis of milk composition from cows of the experimental group showed positive changes indicating an improvement in the qualitative composition of milk. At that, a significant increase in fat content by 5.8-15.7% and decrease in protein by 12.5-15.09% was noted. The indicators of milk acidity and density also increased; that