RU2807573C1 - Method of correcting secondary immunodeficiencies in birds - Google Patents

Abstract

FIELD: veterinary medicine.

SUBSTANCE: invention concerns the correction of secondary immunodeficiencies in birds, as well as the prevention of the development of pathological changes in internal organs. The following is proposed: a method of feeding birds, broiler chickens, which includes the introduction of an additional adaptogen into the basic diet in the form of a feed additive for the correction of secondary immunodeficiencies in birds in such a way that the structured peat-sapropel concentrate “GumiPorf” is introduced into the diet daily as a feed additive during the period from 1 to 42 days of life at a dose of 2 liters per 1 m³ of drinking water. The peat-sapropel concentrate “GumiPorf” is administered in liquid form with drinking water by stirring.

EFFECT: invention provides correction of secondary immunodeficiencies in birds when using a feed adaptogen, while broiler chickens digested and absorbed feed better, which was reflected in an increase in live weight.

2 cl, 9 dwg, 5 tbl

Description

The invention relates to the field of veterinary medicine and concerns the non-drug correction of secondary immunodeficiencies in birds, as well as for the prevention of the development of pathological changes in internal organs, which are the gates of infection.

At present, interest in drugs that influence the maintenance of the natural resistance of the bird body is not waning. This is especially important in agricultural production due to the large concentration of poultry in limited areas, which increases the influence of unfavorable environmental factors: microclimate, overcrowding of poultry, insufficient feeding front, competition, the use of antibiotics, a large number of vaccines, etc.

Research into the use of adaptogens is constantly being conducted around the world. Problems of the aggressive influence of the external environment on the poultry body are manifested by stress, which leads to a decrease in their productivity and an increase in the incidence of both non-contagious and contagious diseases. In addition, changes in housing conditions and the technological cycle also cause the development of stress in poultry, against the background of which the body’s resistance decreases and a second infection develops or non-contagious diseases develop, which can become a favorable environment for the occurrence of infection. Changes and disturbances in the microclimate in poultry houses also cause changes in the body of birds, which can lead to diseases of the respiratory organs. Infectious diseases that cause the death of poultry are manifested by multiple organ damage to internal organs. (Fisinin V.I., Surai P.F. Immunity in modern livestock and poultry farming: new discoveries and prospects / Veterinary Medicine, 2011, No. 9, pp. 40-47.)

To prevent and correct the development of secondary immunodeficiencies, various drugs and feed additives are constantly used to increase the body’s nonspecific resistance. Such drugs include vitamins, mineral supplements, etc. Many of them belong to the group of adaptogens. Therefore, the search for effective agents with protective and adaptogenic properties is ongoing. Involvement of known and search for new adaptogens of mineral, bacterial, organic and natural origin can help in solving the problems of poultry adaptation to living conditions and obtaining more meat and eggs from it. Despite the constant interest in this issue and a significant number of publications, many questions remain unexplored.

In addition, infectious diseases that manifest themselves in multiple organ pathologies occur in birds - these are infectious bronchitis of chickens and infectious laryngotracheitis and avian influenza, which can cause the death of birds. Vaccination is used as a preventive measure, but its effectiveness depends on maintaining an optimal microclimate and compliance with the requirements for their maintenance and feeding. To level out errors in keeping and feeding poultry, adaptogens are often used to increase its resistance to adverse factors.

There are ways to boost your immune response using natural mineral supplements. Various feed additives are known, enriched with biologically active substances, including zeolite, which is mainly used as varieties of this mineral - clinoptilolite, permaite. A mineral additive containing permaite is known (see RF Patent 2103885, published 02/10/98, Bulletin 4). This supplement is introduced into the diet to normalize metabolic processes, but it does not have pronounced immunomodulatory properties.

The “Method for the prevention of mycotoxicosis when raising broilers” is known (RF Patent No. 2555354 Publ. 07/10/2015 Bulletin No. 19). In this method of preventing mycotoxicosis, an artificial zeolite feed mineral additive (FMD) BSh-VIT was used as an enterosorbent to increase meat productivity and improve the safety of broilers during the fattening period. At the same time, the biochemical status of the chickens was determined, weight gain, and the morphological state of the liver were monitored when giving CMD BS-VIT as an enterosorbent, but the study does not contain information about the effect of enterosorbent on the state of the immune system and other internal organs that are the gates of infection.

In addition, in the known biostimulants, their effect on the internal organs of birds with secondary immunodeficiencies is not sufficiently expressed.

The objective of the invention is to develop a method for the correction of secondary immunodeficiencies in birds using a domestically produced feed adaptogen from local raw materials, in order to use drugs of organic origin related to natural resources for a new purpose - as an adaptogen, for the immunocorrection of secondary immunodeficiencies in birds during technological vaccination against major infectious diseases and immunity strain for practical confirmation and justification of the proposed method against the background of additional feeding of an organic adaptogen, while determining the microstructure of the respiratory organs in broilers.

The problem is solved by the fact that “Structured peat-sapropel concentrate” is additionally introduced into the feeding process as an adaptogen - under the trade name “GumiPorf”, corresponding to TU 20.15.80.190-001-14741912-2017, manufactured by LLC Scientific and Production Company Hydraulic Innovative Technologies "(RU patent No. 2514715, certificate of conformity No. ROSS RU.AD52.N00019 dated July 13, 2017), using dehydrated sapropel from Lake Berezovskoye and peat from the Kuzminskoye deposit in the Sverdlovsk region.

The novelty of the method is that the “Structured peat-sapropel concentrate” “GumiPorf” is used additionally for a new purpose as an adaptogen for broiler chickens to increase nonspecific resistance, the quality of the resulting products and the prevention of respiratory diseases in poultry, as well as to increase the safety of livestock and increase in live weight daily at a dose: from 1 to 42 days at a dose of 2.0 l per 1 m ³ of water. The instructions for use of “GumiTorf” do not provide for its use as a drug used as an adaptogen, which is the use of a known drug for a new purpose.

Initially, “GumiPorf” was intended as an organic fertilizer for plants, but laboratory studies were carried out to show that it is harmless and safe for the health of people and animals. (Dolganov O.V. GumiPorf - soil conditioner. Peat-sapropel concentrate based on hydraulic shock technology [Electronic resource]. - Access mode: http://askap.ru). The drug is an environmentally friendly product, does not have a negative effect on the skin and does not irritate the mucous membranes, it is not flammable or explosive, and is highly effective at low concentrations, which made it possible to use it for a new purpose - as an adaptogen.

After conducting a literature and patent search, laboratory studies, preliminary exploratory production experiments and theoretical justification of the doses and timing of administration of the organic adaptogen "GumiPorf" for the proposed purpose with drinking water, a number of experimental studies were carried out on laboratory animals - white outbred rats, and production experiments for practical confirmation and justification of the proposed method on broiler chickens, taking into account the characteristics of their development.

The method is carried out as follows: organic adaptogen - “GumiPorf” is introduced into the diet in liquid form with drinking water by stirring daily, at the rate of 2 liters per 1 m ³ of water from days 1 to 42.

Example 1. The object of the study were broiler chickens of the Arbor Acres cross. The age of the bird when starting the experiment was the 1st day of life. The duration of the experiment was 42 days. The purpose of the study was to determine the effectiveness of the organic adaptogen “GumiTorf” as a preventive and corrective agent for secondary immunodeficiencies in poultry.

To achieve the goal of the study, the following tasks were set:

assess the state of the microclimate in poultry houses and other technological parameters;

- determine the effect of the organic adaptogen “GumiPorf” on feed absorption and increase in live weight of broilers during the fattening period;

- evaluate the influence of the adaptogen on the incidence of broilers and the structure of incidence based on the results of a postmortem examination;

- to determine the frequency of occurrence of various pathologies against the background of technological vaccination carried out at the enterprise when using the organic adaptogen “GumiPorf” in meat chickens as a source of macro- and microelements and humates.

The research was carried out at one of the poultry and meat production enterprises. To conduct the experiment, day-old broiler chickens of the Arbor Acres cross were selected and divided into two groups according to the principle of analogues, each containing 2000 birds.

Before the start of the experiment, day-old chicks were randomly weighed, 25 heads of cockerels and hens, a total of 50 heads from each group, a clinical examination was carried out, and chicks with deformities were removed. During the period of the study, the technological process of keeping and feeding was the same, the scheme of preventive measures was followed and was identical. Feeding with prepared feed from a feed mill according to the recipe in accordance with the age of the bird. Every day we carried out organoleptic control of the microclimate in the poultry houses, determined the temperature regime in the poultry house, monitored the operation of ventilation, the speed of air movement and the presence of harmful gases such as ammonia, hydrogen sulfide, and carbon dioxide. We monitored our drinking regime. The control group received only feed and vitamin-mineral supplements according to the farm plan. The experimental group, in addition to similar additives according to the farm scheme, additionally received a liquid water-soluble adaptogen of organic origin “GumiPorf” with drinking water. (Table 1).

Groups were selected based on analogues. In the experimental group, for the entire period of fattening, feed and additives according to the farm scheme, additionally: from the 1st day of life until slaughter (day 42), chickens received an organic adaptogen - “GumiPorf” mixed with drinking water from days 1 to 42 of fattening, in a dose of 2 l liquid organic adaptogen “GumiPorf” per 1 m ³ of water, with the exception of days of technological vaccination (drinking of the vaccine). In the control group - only compound feed and additives according to the farm scheme. The water regime and amount of water in the groups were the same. For the entire period of feeding the organic adaptogen “GumiTorfa”, the efficiency of using feed to increase the live weight of chickens was recorded, the number of dead chickens was counted and the causes of death were determined, and a clinical examination of chickens from the experimental and control groups was carried out daily. At the same time, attention was paid to the activity in the consumption of feed and water, the condition of the feather cover, visible changes in bone and joint pathology and the motor activity of the chickens.

After the slaughter of chickens, carcasses and offal were weighed to account for the post-slaughter yield of meat products. To do this, 50 carcasses from each group (25 cockerels and hens each) were selectively weighed. After drinking the liquid organic adaptogen - “GumiTorf” during the slaughter period, a veterinary and sanitary examination of the carcasses and offal was carried out, then material was taken for histological examination from the heart, lungs, liver, spleen, bursa of Fabricius, samples of the muscles of the chest and thigh were taken to determine the quality of meat products without visible macroscopic pathological changes. The selected material was fixed in 10% neutral formalin according to the generally accepted method, then dehydrated in alcohols of increasing concentration and embedded in paraffin. Sections were prepared on a rotary microtome in licensed laboratories of the Central Research Laboratory of the Federal State Budgetary Educational Institution of Higher Education USMU. Preparation of paraffin blocks, sections and staining of histological sections were carried out according to generally accepted methods. Sections were prepared on a rotary microtome NM-450 Microm. The finished sections were stained with hematoxylin and eosin and Van Gieson according to generally accepted methods. Histological preparations were studied using an Olympus CX41 light microscope at magnification x 100, 400, 1000. Microphotography was carried out with a Levenhuk C130 NG digital camera to document the most common changes in the comparison groups.

After a daily clinical examination of the chickens, the dead were removed and a pathoanatomical autopsy of the corpses was carried out, the changes were described, special attention was paid to the condition of the internal organs (heart, lung air sacs, liver, spleen, kidneys, glandular and muscular stomach, intestines and pancreas), photographic recording was carried out , material was selected for histological examination. The selected material was fixed in a 10% solution of neutral formalin, then according to generally accepted methods: dehydrated in alcohol, embedded in paraffin, and histological sections were prepared, which were stained with hematoxylin and eosin. The resulting histological sections were examined under a light microscope.

As a result of the studies, it was found that broiler chickens that received, in addition to the main diet used on the farm, the liquid organic adaptogen “GumiPorf” better digested and absorbed feed, which was reflected in an increase in live weight when weighed (Table 2; 3).

Accordingly, the average daily weight gain was also higher in the experimental group (Table 3), which is also clearly visible in Fig. 12.

In FIG. 1. The dynamics of live weight growth in broilers during the research period is presented.

In FIG. 2. The dynamics of the increase in average daily weight gain during the fattening period in the experimental group relative to the control group is presented.

When analyzing the results of weighing during the entire period of fattening broilers in the experimental group, the increase in live weight was higher than in the control group. At the end of fattening, live weight in the experimental group was significantly higher than in the control group. (Fig. 1)

In FIG. Figure 1 clearly shows the dynamics of live weight gain, that in the experimental group the live weight gain was higher than in the control group and at the time of slaughter significantly exceeded the live weight and slaughter yield of broilers in the control group.

The period of decline in weight gain can be explained by the fact that in the period from the 14th day there is a change in diet from starter to growth, and at the same time, the technology coincides with vaccination against infectious bronchitis of chickens. In the period from 17 to 24 days it coincides with vaccination against infectious bursal disease with a change in diet from growth to finishing and, accordingly, with the abolition of antibiotics. After this, a significant sharp increase in live weight was noticeable in the experimental group.

When analyzing the state of the microclimate in the poultry house, deficiencies in the ventilation were noted, due to this the speed of air movement decreased, and accordingly the humidity and concentration of harmful gases (ammonia, hydrogen sulfide and carbon dioxide) increased. In addition, on some days the air temperature inside the poultry house also slightly exceeded the maximum permissible values. All identified violations of the microclimate and living conditions lead to the development of stress in broiler chickens, which ends in the development of secondary immunodeficiency, which in turn creates favorable conditions for the development of various diseases.

During daily clinical examination, dead chickens were removed and post-mortem examination was performed. During a macroscopic examination, the cause of death was determined, and at the end of the experiment, the structure of morbidity and mortality of poultry was determined, as well as changes in the safety of the livestock when using the liquid organic adaptogen “GimiPorf”. (Table 4).

When assessing the safety of the livestock when using the adaptogen, Table 4 shows that in the experimental group the safety increased by 12%. (Fig. 3). Mortality due to damage to the respiratory system has decreased significantly (2.4-10 times), despite insufficient microclimate indicators.

In terms of the number of dead chickens during the entire study period, 5 times fewer chickens died in the experimental group.

When assessing the structure of mortality when using the liquid organic adaptogen “GumiTorf”, it is clear that inflammatory diseases of the respiratory system occur 10 times less frequently in the experimental group than in the control group.

In FIG. Figure 3 shows the structure of morbidity and mortality of chickens in groups.

Broilers in the experimental group were 2.4 times less sensitive to asphyxia associated with poor ventilation and increased contamination with harmful gases compared to the control group, which shows the advantages of the proposed method.

The number of diseases of the digestive system decreased: in the experimental group by 1.5 times compared to the control group.

The incidence of colibacillosis in the experimental group also decreased by 7.7 times.

For other non-communicable diseases, a 13.3-fold decrease in incidence in the experimental group was also noted compared to the control group.

In general, mortality in the experimental group decreased by 4.9 times compared to the control group. Despite the significant reduction in mortality, the morbidity structure was somewhat different.

During a pathological autopsy, macroscopic examination most often revealed lesions of the trachea; lesions of the lungs and inflammation of the air sacs were less common.

A qualitative assessment of pathological changes in the respiratory organs in all experimental groups showed that the severity of the lesion was less pronounced than in the control group. In the majority of dead broilers from the control group, deposits of fibrin in the trachea and bronchi, accumulation of exudate, the development of aerosacculitis, congestive hyperemia and pulmonary edema, and less often pleuropneumonia were observed.

Also, during histological examination, pathomorphological changes at the cellular level were observed to a lesser extent in the chickens of the experimental group, and we observed more severe changes in the chickens of the control group. Histological examination of macroscopically unchanged lungs most often revealed alveolitis, microbronchitis or peribronchitis, perivascular and peribronchial edema, lymphoid cell infiltrates and hemosiderin deposition were noted in the lung tissue (Fig. 4-9).

In FIG. Figure 4 shows the histostructure of the lungs from broilers of the control group. Areas with lymphoid cell infiltration are clearly visible.

In FIG. 5 The overview photograph shows the histostructure of the lungs from a broiler from the experimental group. Peribronchial and perivascular edema are noticeable.

In FIG. Figure 6 shows the histostructure of the lungs from broilers of the control group. Granuloma formation.

In FIG. Figure 7 shows the histostructure of the lungs from broilers of the experimental group. Peribronchial edema.

In FIG. Figure 8 shows the histostructure of the lungs from broilers of the control group. Lymphoid cell infiltrate.

In FIG. Figure 9 shows the histostructure of the lungs from broilers of the experimental group. Alveolitis. Stromal swelling.

When calculating the economic efficiency of using the liquid organic adaptogen “GumiTorf” in the prevention of secondary immunodeficiencies in broilers, the following data were obtained, which are shown in Table 5.

As a result of studies conducted to evaluate the effectiveness of the liquid organic adaptogen “GumiTorf” in the prevention of secondary immunodeficiencies in broilers, positive changes were obtained in improving the quality of fattening, which amounted to 21.1% in comparison with the control group. According to the structure of the causes of death of birds in the experimental group, the number of deaths due to respiratory diseases decreased. When analyzing the causes of death for almost all diseases that caused the death of birds, mortality decreased in the experimental group compared to the control. When analyzing the postmortem autopsy data, less pronounced changes were noted in the dead broilers of the experimental group than in the broilers of the control group. Similar changes were noted during histological examination; broilers in the experimental group had less pronounced pathomorphological changes in the lungs.

After analyzing the results obtained, the following conclusions can be drawn:

1. In poultry houses for raising and fattening broilers, poultry deaths due to asphyxia were noted, while in the experimental group the mortality rate was lower than in the control group, where the birds did not receive the liquid organic adaptogen “GumiPorf”.

2. When using the liquid organic adaptogen “GumiTorf”, the efficiency of feed absorption increases, while broiler chickens gain live weight more intensively in the experimental group by 390 g, which was 21.1% more than in the control group.

3. When analyzing the mortality rate and the results of the pathological autopsy of broilers receiving the liquid organic adaptogen “GumiPorf”, it was confirmed that the number of deaths decreased by 12%. For all diseases, including respiratory diseases, when using the liquid organic adaptogen “GumiPorf”, mortality decreased compared to the control group.

4. During the pathological assessment of the pathology caused by pathogens of Newcastle disease, infectious bronchitis of chickens and infectious lagingotracheitis were not detected in both groups, which makes it possible to consider all identified changes in the respiratory organs with microclimate disturbances in poultry houses as manifestations of technological stress and the development of secondary immunodeficiency.

5. When conducting pathomorphological and histological examinations of dead broiler chickens, changes in the internal organs were noted, but the degree of their severity was different: more pronounced, gross changes were noted in broilers of the control group and more erased, less pronounced changes in broilers of the experimental group, which indicates the effectiveness of using the liquid organic adaptogen “GumiTorf” to increase nonspecific resistance in the prevention of secondary immunodeficiencies in poultry.

6. The economic efficiency of using liquid organic adaptogen mixed with drinking water from days 1 to 42 at a dose of 2 liters per 1 m ³ of drinking water amounted to 25.7 rubles per 1 ruble of costs.

The proposed method can be recommended for use in poultry farming, both in poultry farms and in private farms.

Claims (2)

1. A method of feeding birds - broiler chickens, characterized by the fact that it includes the introduction into the basic diet of an additional adaptogen in the form of a feed additive for the correction of secondary immunodeficiencies in birds in such a way that the structured peat-sapropel concentrate "GumiPorf" is daily introduced into the diet as a feed additive » in the period from 1 to 42 days of life in a dose of 2 liters per 1 m ³ of drinking water. 2. The method of feeding birds according to claim 1, characterized in that the peat-sapropel concentrate “GumiPorf” is administered in liquid form with drinking water by stirring.