CZ2013773A3 - Test kit and method of cow herd classification - Google Patents

Abstract

A test kit, in particular a test kit (4) for detecting a cow mastitis agent containing a test diagnostic for the detection of a mastitis agent with a chromogenic component that contains at least two test spaces (1, 2, 3) in which different test diagnostic agents are arranged finding different groups of mastitis agents. A method for sorting a herd of cows, in particular a method for sorting a herd of cows with respect to mastitis agents by means of a test kit to collect milk samples from individual cows of the herd, followed by each individual milk sample being applied to test areas (1, 2, 3) they are further placed in an incubator, where their cultivation takes place for a predetermined period of time, and the reactions of individual test diagnostic substances are then subtracted

Description

Test set and method of classification of the cow herd

Field of technology

The invention relates to a test kit for detecting the causative agent of mastitis - inflammation of the udder of cows and a method of classifying the herd of cows with regard to the causative agent of mastitis.

Current state of the art

Currently, a number of diagnostic methods are known for detecting mastitis in cows.

The basic method is to determine the number of somatic cells in raw milk. The number of somatic cells is an important factor in diagnosing inflammation of the mammary gland. For example, the direct microscopic method, the modified CMT method and fluorometry are used to measure the number of somatic cells. The main disadvantage of this method is that it is only indicative, allowing only to determine whether the udder may be inflamed or not. Since it is not possible to determine the exact causative agent of the inflammation with this method, when a larger number of somatic cells are detected, broad-spectrum antibiotics are used, which are expensive, and their use may be completely unnecessary if the causative agent is not of bacterial origin. Another disadvantage is that the use of an antibiotic, if this treatment is not necessary, will spoil the milk.

In patent application CZ PV2001-4305, a method of recognizing udder inflammation in cows is described, belonging to physical methods. The method includes the steps of emitting visible light rays and/or near-infrared rays with a wavelength ranging from 400 to 2500 nm into urine, raw milk or the mammary gland of a cow, detecting the intensity of the transmitted light rays by examining a sample of unaffected reflected light rays or transmitted and reflected light rays rays or transmitted and reflected light rays from urine, raw milk or mammary gland, performing multivariate regression analysis, and recognizing the presence of cow udder inflammation. Equipment for carrying out the method includes a light source, a spectroscope, a filter, a lens, a reflecting mirror, an interrupter, an integrating sphere, sensors connected to a data processing system, and a sample holder. The main disadvantage of this method is that, again, it is only indicative, allowing only to determine whether the udder may be inflamed or not. Another disadvantage is that the equipment to perform this method is very expensive.

Other methods for determining the causative agent of mastitis are known from the state of the art, such as the method of laboratory diagnosis of inflammation of the mammary gland of cows using the quantitative detection of blood serum albumin in the milk of dairy cows described in patent document CS191082. According to this method, a titrated amount of anti-albumin precipitation serum is incorporated into a 1 to 3% gel, preferably 1.5% agar, boiled in a physical solution of sodium chloride and cooled to 50° to 60° C, and the agar is poured into transparent dishes. whereas, after the agar solidifies, the same holes are made in it and filled with milk serum, which is obtained by precipitation of casein after the addition of chymosin. Subsequently, after soaking the samples in the agar, the samples are allowed to stand in a closed state at room temperature for 17 to 34 hours, while the milky precipitation rings formed around the holes have a diameter proportional to the amount of albumin in the given sample, which is compared to samples with a standard amount of albumin . The disadvantage of this method is that it is very complex and time-consuming, usable only in a laboratory environment, and therefore expensive, while its results are relatively imprecise.

Furthermore, a number of methods are known that use diagnostic substances to detect the causative agent of mastitis with a chromogenic component. In general, these methods allow accurate determination of the causative agent of mastitis. The problem is, however, that the way these substances are used and the way the testing is organized, the known methods are very expensive and lengthy, and thus do not allow to easily and quickly determine at least the range of possible causes of mastitis.

It is clear from the above-mentioned state of the art that the main disadvantage of the current state of the art is that there is no known method or means that would allow to quickly and accurately determine the cause of mastitis.

The aim of the invention is a test kit and a method of its use, which will enable the rapid determination of the causative agent of mastitis, which will enable a rapid solution to the problem, for example by using precisely targeted antibiotics.

The essence of the invention

The stated shortcomings are largely eliminated and the objectives of the invention are met by a test kit, in particular a test kit for detecting the causative agent of cow mastitis containing a diagnostic test substance for detecting the causative agent of mastitis, the essence of which, according to the invention, is that it contains at least two test spaces in which different test diagnostic substances with a chromogenic component for detecting different groups of mastitis agents.

In an advantageous embodiment, the test set contains at least three test spaces, in which different diagnostic test substances are arranged for detecting different groups of mastitis agents.

The advantage of this test kit is that it enables a quick and simple determination of the causative agent of cow mastitis and, with regard to the test result, a quick classification of cows and the subsequent treatment of diseased animals with targeted antibiotics. Another advantage is that the test kit is not only usable in the laboratory, but with regard to the use of the chromogenic component, it is easily usable in the normal operation of the agricultural enterprise.

Furthermore, it is advantageous if the test set contains a test area for detecting the group of staphylococci, a test area for detecting the group of enterococci, and a test area for detecting the group of g-minus bacteria and yeast. This division is advantageous from the point of view of the most frequently detected causative agents of cow mastitis in practice.

It is also very advantageous if each of the test spaces contains at least two test diagnostic substances for determining the causative agent of mastitis with different chromogenic components. The advantage is that it is possible to directly determine the causative agent of mastitis in an individual piece.

Furthermore, it is very advantageous if each of the test areas contains test diagnostic substances for the determination of pre-selected mastitis agents. This allows for very accurate testing results, with mastitis agents being determined to the species or genus level. The speed of identification of the causative agents of mastitis and the associated opportunity to start targeted treatment in time is very advantageous. It is then very advantageous that the causative agents of mastitis can be selected, which are particularly dangerous, for example, with regard to their ability to be quickly transmitted to other pieces of the herd. Another possibility is to search for dairy cows excreting pathogens in the period before mating, which will enable the use of effective drugs in infected individuals while standing dry.

For practical reasons, it is advantageous if the individual test areas are separated from each other, and are visibly marked with respect to the test diagnostic substance to determine the groups of mastitis agents they contain. This significantly improves the work with the test set and also significantly simplifies it with regard to the possibility of routine use in agricultural enterprises.

The aforementioned shortcomings are further removed to a large extent and the objectives of the invention are fulfilled by the method of classifying the herd of cows, in particular the method of classifying the herd of cows with regard to the causative agent of mastitis using the above-mentioned test kit, the essence of which, according to the invention, is that milk samples are first taken from individual cows of the herd , then each individual milk sample is applied to the test spaces, which are then placed in an incubator, where they are cultivated for a predetermined time, and finally the reactions of the individual test diagnostic substances are read.

It is advantageous if individual cows are subsequently classified into a group of healthy cows, into a group of cows that can be easily treated other than antibiotics, and into a group of cows that can be treated with antibiotics.

The great advantage of this method of sorting the herd of cows is its speed. According to the current state of the art, the first results of testing a herd with an increased amount of somatic cells in the milk are known in approximately 4 days. The above method allows for very accurate results in as little as 24 hours. This makes it possible to sort out sick animals very quickly and stop the possible spread of infection to other animals in the herd.

Furthermore, it is very advantageous if the group of cows that can be treated with antibiotics is divided according to the causative agent of the infection and treated with the appropriate antibiotic. The advantage is that sick cows can be targeted and treated with simple antibiotics, which have a lower risk of developing resistance compared to the current situation, when the entire herd is overtreated with a high dose of a broad-spectrum antibiotic. The application of special antibiotics from the group of so-called antibiotics with indication restrictions is reserved using the method according to the invention only for individuals with proven excretion of pathogens that cannot be treated otherwise.

The method according to the invention thus brings great cost savings and an increase in the curability of individual cows in the herd in the future.

The test set and the method of classifying the herd of cows according to the invention enables very simple and inexpensive detection of the causative agent of mastitis in individual cows of the herd. Another great advantage is the very quick identification of the specific causative agent of mastitis in a sick cow and, thanks to this, subsequent treatment with targeted antibiotics. Due to the fact that only diseased pieces are targeted, there is a large saving in the cost of antibiotics and also a large saving in the antibiotics themselves. Another huge advantage is related to this, which is the fundamental reduction of antibiotics in milk and thus the reduction of these residues in the human food chain. By using broad-spectrum antibiotics and antibiotics with indication restrictions only in necessary cases, the basic condition for preventing the emergence of bacteria resistant to ATB treatment is met.

Overview of images on the drawing

The invention will be further elucidated with the help of the drawing, in which Fig. 1 shows a view of the test set and three test spaces.

An example of an embodiment of the invention

Test set 4 (Fig. 1) for detecting the causative agent of cow mastitis containing test diagnostic substances for detecting the causative agent of mastitis contains three mutually separate test spaces 1,2,3, in which different diagnostic test substances with a chromogenic component are arranged for detecting different groups of causative agents of mastitis .

Each of the test spaces 1,2,3 contains at least two diagnostic test substances with different chromogenic components for detecting pre-selected mastitis agents.

Test area 1 contains the following test diagnostic substances with a chromogenic component for detecting the group of staphylococci:

- Staphylococci coagulase negative:

- test substance for the detection of Staphylococcus chromogenes with a white chromogenic component,

- test substance for the detection of Staphylococcus haemolyticus with a light green chromogenic component,

- test substance for the detection of Staphylococcus sciuri with a dark green chromogenic component,

- Staphylococci coagulase positive:

- test substance for the detection of Staphylococcus aureus with a dark pink chromogenic component.

Test space 2 contains these test diagnostic substances with a chromogenic component for detecting the group of enterococci.

- test substance for the detection of Streptococcus agalactiae with a light blue chromogenic component,

- test substance for the detection of Streptococcus uberis by the dark blue chromogenic component,

- test substance for the detection of Streptococcus dysgalactiae with a blue-green chromogenic component,

- test substance for the detection of Enterococcus faecalis with a dark purple chromogenic component.

Test space 3 contains these test diagnostic substances with a chromogenic component for detecting the group of g-minus bacteria and yeast.

- test substance for detecting E.coli with a red chromogenic component,

- test substance for detection of Klebsiella with a purple chromogenic component,

- test substance for the detection of Proteus vulgarit with a light gray chromogenic component,

- test substance for detecting Candida with a white chromogenic component.

All test areas 1,2,3 contain nutrients.

The individual test spaces 1,2,3 are visibly marked with regard to the test diagnostic substance for detecting the groups of mastitis agents that it contains.

According to the method of classifying the herd of cows with regard to the causative agent of mastitis, using the above-mentioned test set 4, milk samples are first taken from individual cows of the herd, then each individual milk sample is applied to test spaces 1,2,3, which are then placed in an incubator, where they are cultivated for 24 hours, and finally the reactions of the individual test diagnostic substances are read.

Subsequently, the individual cows are classified into a group of healthy cows, into a group of cows that can be easily treated, and into a group of cows that can be treated with antibiotics.

Next, the group of cows that can be treated with antibiotics is divided according to the causative agent of the infection and treated with the appropriate antibiotic.

Industrial applicability

The test set and the method of sorting the herd of cows using this test set can be used for simple and quick sorting of sick cows in the herd, for detecting the causative agent of mastitis in sick cows and for their subsequent targeted differentiated treatment with the aim of reducing the number of somatic cells and improving the quality of milk produced in the long term.

List of relational tags test spaceI test spaceII test spaceIII test set

Claims (10)

Patent claims 1. A test set, in particular a test set (4) for detecting the causative agent of cow mastitis containing a test diagnostic substance for detecting the causative agent of mastitis, characterized in that it contains at least two test spaces (1,2,3) in which different test diagnostic substances with a chromogenic component for detecting different groups of mastitis agents. 2. A test set, according to claim 1, characterized in that it contains at least three test spaces (1,2,3) in which different test diagnostic substances with a chromogenic component are arranged for detecting different groups of mastitis agents. 3. A test set, according to claim 2, characterized in that it contains a test space (1) for detecting the group of staphylococci, a test space (2) for detecting the group of enterococci, and a test space (3) for detecting the group of g-minus bacteria and yeast. 4 Test set, according to one of the preceding claims, characterized in that each of the test spaces (1,2,3) contains at least two test diagnostic substances for determining the causative agent of mastitis with different chromogenic components. 5. A test set, according to one of the preceding claims, characterized in that each test area (1,2,3) contains test diagnostic substances for the determination of pre-selected mastitis agents. 6. Test set, according to one of the preceding claims, characterized in that the test spaces (1,2,3) are separated from each other. 7 Test set, according to one of the preceding claims, characterized in that the individual test spaces (1,2,3) are visibly marked with respect to the test diagnostic substance for detecting the groups of mastitis agents they contain. 8. A method of classifying a herd of cows, in particular a method of classifying a herd of cows with regard to the causative agent of mastitis using a test kit (4) according to one of the preceding claims, characterized in that milk samples are first taken from individual cows of the herd, then each individual milk sample is applied to the test spaces (1,2,3), which are then placed in an incubator, where their cultivation takes place for a predetermined time, finally the reactions of the individual test diagnostic substances are read. 9. The method of sorting the cows of the herd, according to claim 8, characterized in that the individual cows are then sorted into a group of healthy cows, into a group of easily curable cows, and into a group of cows that can be treated with antibiotics. 10. The method of sorting the cows of the herd, according to claim 9, characterized in that the group of cows that can be treated with antibiotics is divided according to the causative agent of the infection and treated with the appropriate antibiotic.