RU2754119C1 - Centile scales for estimating the content of chemical elements in the fur of rodents - Google Patents

Abstract

FIELD: animal husbandry.

SUBSTANCE: invention relates to agriculture, namely to animal husbandry, toxicology, may be used as a method for estimating the metabolism of chemical elements in domestic and wild animals of rodents of the Rodentia order inhabiting the Central Federal district, consisting in the fact that the content of zinc, copper, iron, lead, cadmium and arsenic is determined in the fur of rodents taken from the section of the back of the animal below the projection of the scapulae with an area of 1 cm² and a mass of 1 to 3 g, then the content of zinc, copper, iron, lead, cadmium and arsenic in the fur is estimated by the centile scales, and, if the concentration value of at least one of the above chemical elements is a centile value from 25 to 75, the level of the chemical element is estimated as normal, the centile value under 25 to 10 is estimated as below average; the centile value level above 75 to 90 is estimated as above average; the centile value under 10 to 5 is estimated as low; the centile value above 90 to 95 is estimated as high; the centile value under 5 to 0 is estimated as very low; the centile value above 95 to 100 is estimated as very high.

EFFECT: provides a possibility to increase the efficiency and accuracy of estimation of the elemental status of rodents and timely correct the imbalance of the volume concentration of chemical elements in the body of the animal.

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Description

TECHNICAL FIELD OF THE INVENTION

The invention relates to agriculture and can be used to assess the characteristics of the metabolism of chemical elements in the body of animals and the diagnosis of microelementosis in domestic and wild animals of the order Rodentia Rodents.

LEVEL OF TECHNOLOGY

The hair (wool) cover serves as one of the objective indicators of the animal's adaptability to environmental conditions. Wool is the second in order metabolically active tissue of the body, their microelement status corresponds to a certain period of accumulation of the element, and not to the moment of sampling [9]. In this regard, non-invasive methods of taking and assessing the chemical composition of wool make it possible to develop individual programs for the prevention and correction of elementosis.

Hair (wool), as a biosubstrate, does not require special equipment for storage and transportation; it can be stored for an almost unlimited time without losing its information value. It should be taken into account that the concentration of chemical elements in hair is much higher than in physiological fluids traditionally used for clinical and biochemical analyzes, which makes it possible to significantly expand the set of chemical elements available for analytical determination [10].

Rodents (lat. Rodentia) are the most numerous order of mammals that are distributed throughout the world. These animals are easily adaptable, and they have developed various adaptations necessary for survival in existing conditions. The hair cover in representatives of this order is very diverse - from thick and soft to sparse, bristle-like or even forming needles. There are no sweat glands on the body, only the presence of sebaceous glands is characteristic. They are characterized by a fast metabolism and good cumulative properties of wool. At the present time, the species of this order are of wide importance for humans and nature, since they are the main component of food chains, participating in the transfer of, among other things, toxic elements, have decorative value, living as pets in humans, are contained in the zoological collection and are used as laboratory objects.

In veterinary medicine and toxicology until now there are no unified centile scales for assessing the elemental composition of rodents by the level of accumulation of chemical elements in animal hair.

One of the most frequently used groups of mammals used to assess the state of the environment, including to determine the level of pollutants, are small terrestrial animals, which include representatives of the mouse family [3, 6, 8]. They have a high reproduction rate and metabolic rate, sensitivity to pollutants, which makes them the main objects for environmental monitoring. Most often, natural populations of small mammals are studied, which makes it possible to assess the quantitative intake of chemicals in these objects [6-8]. The active spatial movement of rodents, the plasticity of the diet in the natural habitat, and the heterogeneity of natural objects make it impossible to interpret the results obtained in large metropolitan areas to assess the anthropogenic load.

The role of chemical elements in the functioning of a living organism is beyond doubt, their participation in most biochemical processes and various functions has been proven. Moreover, each macro- and microelement is characterized by a certain optimal range of content in the body. Deviations in the concentration of chemical elements can lead to the occurrence of reactions of varying severity (physiological changes within normal regulation, significant metabolic disorders, specific diseases) [1, 2, 4, 5].

From RF patents No. 2256401, 2223039, 2161799 methods are known for assessing the physical development of children of different age periods with different deviations in health by the level of chemical elements in the blood with a control determination of the parameters of somatic development, blood parameters and the intensity of chromosome staining. These methods are not acceptable for rodents, since it is not possible to collect a sufficient volume of wool from the studied animals, the studied chemical elements do not give a complete assessment of the state of the animals. In addition, the sample of chemical elements studied in the prototypes does not give a complete picture of the level of metabolic processes in comparison with the proposed method (n is 402), which significantly reduces the efficiency of the method. The method was carried out on 13 species of animals belonging to four families of the order, the following microelements were studied: zinc, copper; iron, lead, cadmium and arsenic.

A significant disadvantage of the prototypes is that it does not take into account the peculiarities of the accumulation of chemical elements in short-living mammals, the peculiarities of physiology, metabolic processes in rodent hair, and does not provide an opportunity to assess the elemental composition of the wool of domestic and wild rodents, which is important in practical work.

DISCLOSURE OF THE INVENTION

The main difference between the proposed method and the prototype is that the studies were carried out on 13 species of animals belonging to four families of the order Rodentia, centile scales were provided for assessing the level of accumulation of chemical elements in animal hair.

The aim of our invention is to develop centile scales for assessing the content of chemical elements in rodent wool.

CARRYING OUT THE INVENTION

To implement the proposed method, an experiment was carried out on rodents contained in zoological collections in Moscow, Yaroslavl and Ivanovo. The studies were carried out on the basis of the Yaroslavl State Agricultural Academy on micropopulations of physiologically healthy animals of the following species: yellow pestle - Eolagurus luteus (n = 18), Mongolian (clawed) gerbil - Meriones unguiculatus (n = 42), downy-tailed gerbil - Sekeetamys calurus (n = 18), cactus hamster - Peromyscus eremicus (n = 18), golden (Syrian) hamster - Mesocricetus auratus (n = 36), acacia rat - Thallomys loringi (n = 18), needle mouse - Acomys cahirinus (n = 30), dwarf mouse - Mus minutoides (n = 24), gray rat - Rattus norvegicus (n = 54), domestic mouse - Mus musculus (n = 48), multi-nipple mouse - Mastomys natalensis (n = 18), chinchilla (domestic form) Chinchilla laniger var. dom. (n is 42), Octodon degus (n is 36). All animals were of sexual maturity. The selection of hair samples is carried out from an area of the animal's back (below the projection of the shoulder blades) with an area of 1 cm ² .

The studies were carried out in 2018-2020 using a complex of modern ecological, biological and statistical methods on representatives of the rodent order kept in zoological institutions of the Central Federal District (Moscow, Yaroslavl, Ivanovo and Uglich). The samples were assessed for the content of ME and TTM - zinc, copper, iron, cadmium, lead and arsenic. The analysis of metals was carried out using atomic absorption mass spectrometry on an atomic absorption spectrometer "KVANT-2AT". The studies were carried out under conditions of repeatability and intermediate precision. When calculating the concentrations of the determined elements in the samples, metrological processing of the results was carried out in accordance with GOST R ISO 5725-6-2002 "Accuracy (correctness and precision) of methods and measurement results".

The results obtained were processed statistically. The arithmetic mean values (M), mean errors (t) and standard deviation were determined (8). To identify statistically significant differences in the compared groups and the contingency between the features, the nature of the distribution of compatibility data, the nonparametric W test Shapiro-Wilk test, Student's t test and Spearman's correlation coefficient were used. Databases were formed in Microsoft Office Excel 2010, Statistica version 10.0 in Windows XP.

Samples were taken by shearing from an area of animal skin weighing about 1-3 g (depending on the type of animal) with medical scissors throughout the year. At the beginning of the research, the period of accumulation of microelements in the selected areas of wool along the length of the hair was determined. For this, a sample of wool weighing 1-3 g was taken from the area of the animal's back (below the projection of the shoulder blades) with an area of 1 cm ² , placed in special envelopes, which were then sealed and marked with the indication of the species, sex, year of birth of the animal and the date of sampling.

As a result of the conducted studies, it was found that, according to the value of the average content in the wool of animals of the family, the studied elements form the following decreasing series: Fe is more than Zn is more than Pb is more than Cu is more than Cd is more than As (Table 1).

At the moment, there is no information on the background and normal levels of the studied toxicants in the wool of the objects under study, therefore, to assess the concentration of metals in biosubstrates, based on the above information, centile scales were compiled for representatives of the order of rodents living in the Central Federal District (Table 2) ...

Based on the obtained gradation, an assessment of the content of chemicals in the wool of the examined animals was made. A very low content of zinc and iron was found in 3.2% of the studied objects, copper, lead, cadmium and arsenic - in%: 9.7; 19.4; 61.2 and 25.8 (respectively).

A low level of accumulation of zinc, copper and iron was noted in%: 12.9; 6.5 and 3.2 rodents (respectively), in relation to lead, cadmium and arsenic - such concentrations of elements were not found in the studied sample.

Below the average concentration of zinc, copper, iron and mumps are found in%: 12.9; 16.1; 6.5 and 6.5 animals, respectively. With regard to cadmium and arsenic, this level of accumulation of metals has not been revealed.

The average level of zinc concentrations was determined in 54.9% of individuals, copper - 41.9%), iron - 48.4%, lead - 41.9%, cadmium - 19.4% and arsenic - 61.3%.

Above average zinc content in wool was found in 12.9% of animals, copper - 16.1%, iron - 22.6%, lead - 3.2%, cadmium - 9.7% and arsenic - 6.5%.

A high level of accumulation of zinc, copper, iron and cadmium was noted in 3.2% of mammals, lead - 12.9% and cadmium - 6.5%.

3.2% of animals have a very high accumulation of cadmium and arsenic, copper - 6.5%, iron - 12.9%, lead - 16.1%. For arsenic, this metal level has not been determined.

Thus, the use of this method will improve the efficiency and accuracy of assessing the elemental status of rodents and promptly correct the imbalance in the exchange concentration of chemical elements in the animal's body.

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Claims (1)

A method for assessing the metabolism of chemical elements in domestic and wild animals of the Rodentia order of rodents living in the Central Federal District, which consists in determining the content of zinc, copper, iron, lead, cadmium and arsenic in rodent wool, which is taken from the area of the animal's back below the projection blades with an area of 1 cm ² and a mass of 1-3 g, then, according to centile scales, the content of zinc, copper, iron, lead, cadmium and arsenic in wool is estimated and at a concentration of at least one of these chemical elements from 25 to 75 centile values, the level of chemical an element is rated as normal, below 25 to 10 centile values are rated as below average; above 75 to 90 centile values, the level is assessed as above average; below 10 to 5 centile values are assessed as low; above 90 to 95 centile values are assessed as high; below 5 to 0 centile values are assessed as very low; above 95 to 100 centile values are assessed as very high.