RU2653018C1 - Method for preventing coccidiosis of broiler chickens when raising them for meat - Google Patents

Abstract

FIELD: veterinary.

SUBSTANCE: invention relates to the field of veterinary science, particularly to a method for preventing coccidiosis of broiler chickens when growing them for meat. Method comprises addition of the coccidiostats into the chicken feed. When broiler chickens are from 3–5 days of age, then for 12 days pharmakocidum 10 in a dose of 1,250 g per 1 ton of feed is added in the feed as coccidiostats. From 15–17 days of age for 12 days 12 % kokcisan in a dose of 500 g per ton of feed is added in the feed, before adding it to the feed, it is mixed with the zeolite in a ratio of 1 to 10. From 27–29 days of age and till the end of the growing period, 100 % amprolium is added to the feed in a dose of 120 g per 1 ton of feed, which is also mixed with the zeolite before the addition to the feed in a ratio of 1:10, but 5 days before slaughter the addition of the preparation is stopped.

EFFECT: use of the invention will increase the safety and average daily weight gain of broiler chickens.

1 cl, 3 tbl, 1 ex

Description

The invention relates to the field of veterinary medicine and can be used for the prevention of coccidiosis of broiler chickens. Coccidiosis is a widespread disease in poultry. The cause of the disease is infection of birds with the simplest unicellular organisms of the genus Eimeria. Signs of coccidiosis are blood in the litter, hemorrhage, accumulation of blood in the cecum, weakness, and indigestion. Often the disease ends with the death of the animal.

To combat coccidiosis, a large number of different medications, feeds, herbal and other drugs were tested. More than 1000 chemical compounds with relatively high activity against coccidia are known, including preparations of the nitrofuran series, sulfonamides, antibiotics, derivatives of vitamin B, 3,5-dinitrobenzamide, dinitrocarbonylide, etc. [1, 2, 3].

At present, chemicals and ionophore antibiotics are considered relatively effective for controlling coccidiosis. To combat the endogenous stages of eimeria, chemopreventive agents are most used that inhibit or completely stop the formation of endogenous forms of coccidia in the bird's body. Such anti-coccidic drugs include ionophore coccidiostatics. They have a coccidiostatic effect against extracellular non-sexual forms (sporozoites, merozoites) of the endogenous development of eimeria in poultry. Since the mechanism of action of ionophore antibiotics is practically the same, cross-resistance to these substances often occurs in coccidia [4]. The ionophores, despite their rather high anticoccidic efficacy, retain the cycle of some eimeria and this contribute to the development of immunity. This property, combined with a wide spectrum of action, including pathogenic bacteria that adversely affect the growth and conversion of feed, makes these drugs favorites in the fight against coccidiosis in broilers and repair young chickens. Another group of anti-eimeriotic drugs includes chemically synthesized drugs: decokvinat, robenidin hydrochloride, clopidol, toltrazuril, diclazuril, amprolium and its derivatives, zoalen and nicarbazine, diaveridine. Chemicals act effectively against all types of eimeria, but their disadvantage is that the resistance of parasites to their action develops faster than to ionophores. Therefore, an uncontrolled increase in doses should be avoided when using chemical coccidiostatics, because this can lead to the occurrence of epizootics [6].

All anti-coccidic drugs during use lose their effectiveness over time as a result of the emergence of parasite-resistant generations. The resistance of coccidia to one drug is developed within a few weeks, the effectiveness of others is measured over the years, but sooner or later, resistance to any coccidiostatics used develops.

A disadvantage of the known methods is that the recommended course application of therapeutic and prophylactic doses does not prevent infection of the chickens in the intervals between the use of the preparations, which leads to the passivation of oocysts and the formation of resistant strains of eimeria to the drugs used.

It is generally accepted that in the broiler industry to overcome the problem of resistance is an alternation of drugs of different chemical classes. The introduction of rotational programs in veterinary practice reduces the risk of resistance and prolongs the use of coccidiostatics [2].

However, the correct use of rotational programs is of great importance in the prevention of coccidiosis.

According to [6], when growing broilers, depending on the technological conditions, these drugs are used in two programs: rotational and shuttle (the so-called “Shuttle” program). In a rotation scheme for 3-4 consecutive growing cycles, one preparation is used, then they are transferred to another. It is advisable to use up to 4 drugs in the program. With their alternation, it is allowed to replace the chemical coccidiostatics with another, with a different mechanism of action. It is not recommended only to change the ionophore to ionophore. The main disadvantage of the rotation program is the rapid adaptation of pathogens to the drug that is used, with the subsequent development of long-term resistance to its action. In the Shuttle program, in one cycle of broiler growing, 2 drugs are used: one until the age of 27-30 days (usually a chemical preparation), the other before completing the feeding (ionophore antibiotic).

Known drug containing pharmacocide, additionally introduced zeolites, with the content of pharmacocide not less than 10% [3]. The disadvantage of this drug is its low efficiency with prolonged use for the prevention of coccidiosis of broiler chickens due to the appearance of coccidiostatic-resistant strains of eimeria, which does not allow to increase the terms of use as an anti-coccidic drug.

A known method for the prevention of coccidiosis of broiler chickens when growing them for the parent herd, comprising rotationally introducing coccidiostatics into the feed, characterized in that as a coccidiostatics to broiler chickens, salinovet granulate is added to the feed, eimetherm diclazuril and maduvet granulate are added, and salinovet is granulated. for chickens from 8-10 days of age for 37-39 days at a dose of 500 g per 1 ton of feed, then eimetherm diclosuril at a dose of 500 g per 1 ton of feed is added to the feed for chickens for 27-29 days, after which gloss rearing period to the feed of broiler chicks was added maduvet granules at a dose of 500 grams per ton of feed 1 [2].

The disadvantage of this method is that with prolonged use it loses its prophylactic effectiveness, although coccidiostatics with different mechanisms of action are used. But the effect of coccidia getting used to them is much less in comparison with other prevention schemes. After 3-4 times of their use in a row, preventive effectiveness decreases. Here, drugs with different mechanisms of action are used sequentially, but not combined and at the same time, as a result, the phenomenon of mutual amplification (synergism) of drugs in one direction does not occur in the same period of time growing broiler chickens [5]. Also, they do not contain zeolite, which prolongs the action of drugs and positively affects the metabolic processes in the body of broiler chickens, thereby contributing to an increase in the growth rate of live weight due to ion-exchange and sorption properties and the content of biogenic mineral elements in it.

The aim of the invention is to obtain a composition of coccidia funds with high prophylactic efficacy by increasing safety, increasing their average daily gain, allowing minimizing the appearance of coccidiostatic-resistant strains of eimeria, as well as increasing the time of their use as a highly effective anti-coccidia agent in growing broiler chickens for meat.

The problem is solved in that in the method for the prevention of coccidiosis of broiler chickens when growing them for meat, including the introduction of antioxidants with different mechanisms of action of pharmacococide 10, coccisan 12% and amprolium 100%, according to the invention, as coccidiostats to broiler chickens in Pharmcocidum is added to the feed for 10 s from 3-5 days of age for 12 days at a dose of 1250 g per 1 ton of feed. From 15-17 days of age, 12% coccisan is added to the feed of broiler chickens at a dose of 500 g per ton of feed. Before being added to the feed, it is mixed with zeolite [7, 8] in a ratio of 1:10. From 27-29 days of age until the end of the growing period, 100% amprolium is added to the feed at a dose of 120 g per 1 ton of feed. Before adding to the feed it is also mixed with zeolite in a ratio of 1:10. 5 days before slaughter, broiler chickens stop giving the drug. The broiler chickens were reared for 54 days.

Example. To identify prophylactic efficacy in the comparative aspect of pharmacocide 10, coccisan 12% and 100% amprolium, an experiment was performed on 16,000 broiler chickens aged 3-5 days, contained in one typical house, divided into 2 halves of 8000 animals each.

From 3-5 days of age, broiler chickens are supplemented with pharmacocid 10 for 12 days at a dose of 1250 g per 1 ton of feed. From 15-17 days of age, 12% coccisan is added to the feed at a dose of 500 g per ton of feed for 12 days. Before adding to the feed it is mixed with zeolite in a ratio of 1:10. From 27-29 days of age until the end of the growing period, 100% amprolium is added to the feed at a dose of 120 g per 1 ton of feed. Before adding to the feed it is also mixed with zeolite in a ratio of 1:10. 5 days before slaughter, broiler chickens stop giving the drug. The broiler chickens were reared for 54 days.

According to the scheme, an experimental group of broiler chickens from 3-5 days old in the first half of the house received a pharmacocide 10 at a dose of 1250 g per ton of feed for 12 days. From 15-17 days of age, 12% coccisan is added to the feed at a dose of 500 g per ton of feed for 12 days. Before adding to the feed it is mixed with zeolite in a ratio of 1:10. From 27-29 days of age until the end of the growing period, 100% amprolium is added to the feed at a dose of 120 g per 1 ton of feed. Before adding to the feed it is also mixed with zeolite in a ratio of 1:10. 5 days before slaughter, broiler chickens stop giving the drug.

The control group of broiler chickens is a pharmacocid 10 preparation at the rate of 1250 grams per 1 ton of feed until the end of the growing period (Table 1). 5 days before the end of the growing period, broiler chickens were discontinued. Tests of drugs were carried out in 6 cycles of broiler chickens in a row in the same house.

As a result of long-term combined use of drugs of pharmacocide 10, coccisan 12% and 100% amprolium for prophylactic purposes in the comparative aspect of the study, the following results were obtained.

The results of the experiment are presented in table. 2. After the use of pharmacocide 10, coccisan 12% and 100% amprolium in prophylactic doses to broiler chickens in three cycles of their cultivation, the mortality rate was almost at the same level up to 4 cycles, respectively, to 321 and 311 heads per day 4 and 3.5 % (table. 2).

When opening the dead broiler chickens of the control and experimental groups, changes in the internal organs and intestines characteristic of coccidiosis were not found.

The average daily gain of broiler chickens during the growing period (54 days) of the control and experimental groups was the same 51 g, feed consumption per 1 kg of live weight gain was 2.1 and 2.0 kg. The safety of broiler chickens was 95.99 and 96.11%, respectively.

In the fourth cycle of their cultivation in broiler chickens in the control group, the percentage of mortality was higher in comparison with the experimental group by 3.16%. When opening the dead broiler chickens in the blind processes of the intestine, lesions inherent in coccidiosis were found (Table 3).

When examining smears according to Darling's method, in 200 samples in blind processes, on average, in one field of view, broiler chickens in the control and experimental groups had 20.12 ± 0.44 oocysts. The number of oocysts in 20 samples of litter, on average, 2-3 oocytes were found in one field of view, which confirms the increased resistance of certain types of coccidia to pharmacococide 10 with prolonged use.

The average daily gain of broiler chickens during the growing period (54 days) in the control and experimental groups was 48 and 51 g, respectively, feed consumption per 1 kg of live weight gain was 2.1 and 2.0 kg. In this case, the safety of broiler chickens during the growing period was 92.90 and 96.06%, respectively. The effectiveness of prevention was 89.0 and 100%, respectively.

Thus, the long-term combined use of pharmacocide 10, coccisan 12% and 100% amprolium was more effective than pharmacococide 10 for the prevention of coccidiosis of broiler chickens. Therefore, the resistance of coccidia to pharmacococide 10 is produced faster than with the combined use of pharmacococide 10, coccisan 12% and 100% amprolium. The combined use of the proposed drugs pharmacocide 10, coccisan 12% and 100% amprolium prevents losses from coccidiosis by 100%; does not adversely affect the production of immunity; has a prolonged effect; increases average daily gain in live weight by 3%; safety by 96.06%; there is no resistance to coccidia with prolonged use.

Literature

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Claims (1)

A method for the prevention of coccidiosis of broiler chickens when growing them for meat, including the introduction of coccidiostatics into the feed, characterized in that pharmacokcid 10 at a dose of 1250 g per 10 days is added to the feed as coccidiostatics to broiler chickens from 3-5 days of age 1 ton of feed, from 15-17 days of age, 12% coccisane is added to the feed at a dose of 500 g per ton of feed for 12 days, it is mixed with zeolite at a ratio of 1:10 before being added to the feed, from 27-29 days of age and until the end of the growing period, 100% amprolium in a dose of 12 is added to the feed 0 g per 1 ton of feed, which is also mixed with zeolite in a ratio of 1:10 before being added to the feed, and 5 days before slaughter, the cottage of the drug is stopped.