RU2818337C1 - Method for prevention of eimeriosis invasion in calves - Google Patents

Abstract

FIELD: veterinary science.

SUBSTANCE: invention represents a method for prevention of eimeriosis invasion in calves, involving introduction of a fodder additive containing a coniferous energy additive into the basic ration; linseed; fodder yeast and active coal fodder additive at the following ratio of initial components, wt.%: coniferous-energy additive 80.0; linseed 3.0; feed yeast 7.0; active coal feed additive 10.0; which is used together with the basic diet from 5–7 days of age gradually increasing dose of 5.0, 10.0 and 15.0 ml, once a day, in courses of 2 weeks without intervals for 42 days.

EFFECT: invention enables effective and timely prevention of eimeriosis invasion in calves.

1 cl, 1 tbl

Description

The invention relates to veterinary medicine, namely to a method of using natural feed additives of prolonged action for the prevention of eimeriosis in calves of the colostrum and milk period.

Eimeriosis in cattle is very widespread and is recorded in livestock farms with different animal husbandry technologies. The disease causes high economic damage, consisting of a reduction of up to 12-30% in milk and meat productivity and high mortality (10-100%) of animals, mainly young animals. Calves under the age of 1 year are most susceptible to eimeriosis, in which the gastrointestinal tract is affected, diarrhea, exhaustion, anemia and death develop. The fauna of coccidia includes more than 15 species of pathogens that multiply in intestinal epithelial cells and cause their mass death. The most pathogenic species are Eimeria bovis and Eimeria zuernii [Skornyakova O.O. Tilomag and Kitofarm work well against eimeriosis in cattle // Scientific notes of the Kazan State Academy of Veterinary Medicine named after. N.E. Bauman. - Kazan, 2020. - Volume 243 (III). - P.249-254 (1); Skornyakova O.O., Belozerov S.N. Basics of therapy and prevention of parasitic diseases of animals (in the Kirov region): Educational and methodological manual. -Kirov: Vyatka State Agricultural Academy, 2016. - P. 32-36 (2)].

To combat eimeriosis in ruminants, coccidiostatics of two groups are used: chemical (chemococcid, pluricoccin, diclazuril, etc.) and ionophore antibiotics. These drugs not only have a detrimental effect on eimeria, but also have a negative effect on the body of animals. The side effects of these drugs include decreased appetite, diarrhea, decreased water consumption, exhaustion, the development of dysbiosis and intoxication. For example, the most aggressive coccidiostats against the beneficial intestinal microflora of animals turned out to be diclazuril, monenza and narasin. [Modern approaches in the fight against eimeriosis in chickens / Muzyka V.P., Stetsko T.N., Kalinina O.I. [and others] // Scientific Notes of the VSAVM. - 2012. - T.48. -Issue 2. - Part I. - P.9 (3); Khonkiv M.O. Determination of the sensitivity of microorganisms to coccidiostats // Students - science and practice of agro-industrial complex: materials of the 105th International Scientific and Practical Conference of Students and Masters, Vitebsk, May 20-21, 2020 - Vitebsk: VGAVM, 2020. - P. 137 ( 4); Shangaraev R.I. Pharmaco-toxicological assessment and therapeutic effectiveness of Azomethine “S-18” for nematodirosis and eimeriosis in cattle: dis... cand. veterinary sciences. - Kazan, 2019. - P.26-29 (5)].

For the prevention and treatment of eimeriosis in animals and birds, a number of drugs with anti-eimeriosis activity have been proposed: chemical coccide, Trichopolum, salinomycin, Baycox, nitrofuran (furacrillin, furazonal, furazolidone) and sulfonamide drugs (sulfadimezin, sulfadimethoxine, sulfaperedozin, norsulfazole, phthalazole), as well as chloramphenicol , monomycin and many others [Akbaev M.Sh., Vodyanov A.A., Kosminkov N.E. and others. Parasitology and invasive animal diseases. - M.: Kolos, - 2000. 559 p. (6); Pleshakov S.A., Larionov S.V., Rozovenko M.V. Efficacy of furakrilin and furazonal for eimeriosis in rabbits // Journal of Veterinary Medicine. - No. 8. - Saratov, 1997. p. 28-30 (7); Pleshakov S.A. Scientific basis for the use of complex preparations based on nitrofurans for eimeriosis in rabbits // Abstract of thesis. diss. Ph.D. vet. Sci. - 1999. - 18 p. (8)]. However, no chemotherapy drugs specifically acting on Eimeria have yet been found, and those that are widely used have one or more negative properties: high cost, toxicity, accumulation in edible animal tissues, immunosuppressive effects, and the danger of developing resistant strains of the pathogen.

Despite the widespread use of these drugs as means of treatment and prevention of eimeriosis, it is not possible to obtain 100% indicators of extensive and intensive effectiveness. Therefore, these drugs are used repeatedly. For example, to treat eimeriosis in rabbits, furazolidone is used at a dose of 250 mg/kg for 10 days, and after a 5-day break - sulfadimethoxine - on the first day 2 g, in the next 9 days - 1 g per animal [Ponomarenko V.Ya. On the issue of chemoprophylaxis of coccidiosis in rabbits // Materials of the scientific conference of parasitologists of the UASSR. - 4.2. - Kyiv. - 1975. - P.116. (9)].

A method of treatment with furakrilin or furazonal in combination with vitamins and salts of hydroxyethylidene diphosphonic acid has been proposed, which makes it possible to reduce single doses of drugs (active principle) to 30 mg/kg and 15 mg/kg body weight, respectively [RF Patent 2154470. Publ. 08/20/2000 (10)].

There is a known method of treating cows with eimeriosis, including feeding coccidin with food and additionally introducing a single 10% solution of Erakonda - a herbal medicine that stimulates metabolic processes and increases the body's resistance at a dose of 4.5-5.5 mg/kg body weight [RF Patent 2234932. Publ. 08/27/2004 (11)].

Thus, the principle of using anti-eimeriosis drugs is based on their repeated use, which is naturally not indifferent to any organism. Many of them have toxic, irritant and immunosuppressive effects. In addition, long-term use of one drug leads to the appearance of digestive disorders, causes dysbacteriosis, contributes to the inhibition of the enzymatic activity of the gastrointestinal tract and other functional changes in the body of animals.

Consequently, the search for new drugs and schemes for their use for the prevention of eimeriosis in farm animals is an urgent problem.

The objective of the claimed invention is to develop the technology of using long-acting natural feed additives in the diet of calves of the colostrum and milk period and to develop a method for the prevention of eimeriosis in calves.

The technical result is achieved by the claimed method, the essence of which is the use of a feed additive for young cattle [RF Patent 2714265 Publ. 02/13/2020 Bulletin. No. 5 (12)] containing pine-energy additive, flaxseed, feed yeast and active carbon feed additive in the following ratio of initial components, wt. %: coniferous energy additive 80.0; flaxseed 3.0; feed yeast 7.0; active coal feed additive 10.0; for the prevention of eimeriosis infection in calves.

A method for the prevention of eimeriosis in calves, including the introduction of a feed additive containing a coniferous energy additive into the main diet; flax-seed; feed yeast and active carbon feed additive at the following ratio of initial components, wt. %: coniferous energy additive 80.0; flaxseed 3.0; feed yeast 7.0; active coal feed additive 10.0; which is used in conjunction with the main diet from 5-7 days of age, gradually increasing the dose to 5.0, 10.0 and 15.0 ml, once a day, in courses of 2 weeks without intervals for 42 days.

The experiment was carried out on breeding heifers of the black-and-white Holstein breed on the basis of JSC Agrokombinat breeding plant "Krasnogorsky", branch of Pasegovo, Kirovo-Chepetsk district, from March to May 2023. Calves of the colostrum and dairy period are raised using the cold method and kept in individual houses in an unheated room in the conditions of a “calf village”.

To conduct the experiment, we used a feed additive for young cattle [RF Patent 2714265 Publ. 02/13/2020 Bulletin. No. 5 (12)], manufactured by LLC Scientific and Technical Center "Khiminvest" (Nizhny Novgorod). Feed additive for young cattle, contains pine-energy additive, flaxseed, feed yeast and active carbon feed additive in the following ratio of initial components, wt. %: coniferous energy additive 80.0; flaxseed 3.0; feed yeast 7.0; active coal feed additive 10.0.

The duration of feeding the supplement was 42 days, gradually increasing the dose: 5.0, 10.0 and 15.0 ml per head in courses for 14 days without intervals. The drug was administered to an experimental group of animals from 5 days of age (n=10) by drinking it with a small volume of water (50-100 ml), once a day, in addition to the main diet.

For comparative analysis, a control group of animals (n=10) was formed according to the principle of analogue pairs, which was on the main diet throughout the experiment. The animals in the experiments were subjected to clinical observation and thermometry.

To diagnose eimeriosis, fecal samples were taken from the rectum of control and experimental calves and examined by the Fulleborn method according to GOST 25383-82 on the basis of the diagnostic laboratory of veterinary parasitology of the Vyatka State Technical University. In accordance with the State Standard, the presence of up to 1000 oocysts in 1 g of feces (for E.

bovis and E. zuernii) indicates a weak invasion, up to 5000 - a moderate invasion, over 5000 - a strong invasion. To differentiate Eimeria species, the M.V. determinant was used. Krylova (1996). Based on the results of coproscopy, we calculated the extent (extensiveness) and intensity (intensity) of invasion in 3 drops of flotation liquid, in 1 g of feces (EI and II) [1, 2]].

The therapeutic effectiveness of using a feed additive against Eimeria was analyzed based on the results of oocystoscopy of feces before giving the additive and 14, 28 and 42 days after. For this purpose, two indicators were determined - extension and intensity efficiency (EE and IE).

Group standard deviation was calculated using Microsoft Excel 2010.

Microscopic examination of 10 samples of feces from calves in the control group revealed unsporulated oocysts of E. bovis and E. ellipsoidalis only after 14 days of experiment in 4 samples with EI of E. bovis equal to 30%, and EI of E. ellipsoidalis - 10%. The intensity of infection in calves aged 19-21 days with E. bovis invasion ranged from 1 to 52, and with E. ellipsoidalis invasion - 10 oocysts, which corresponds to a low degree of infection (Table 1). However, one calf showed signs of diarrheal-dyspeptic syndrome (DDS).

When coproscopy of calves in the control group after 28 days of experiment, only E. bovis oocysts were found in 5 samples. The intensity of infection in calves aged 33-35 days increased and ranged from 2 to 98 oocysts. In three calves the degree of damage was weak, in 2 - moderate with AI equal to 2.5 ± 0.71 oocysts in the Goryaev chamber or 2777.5 oocysts in 1 g of feces and signs of DDS were noted.

Similar dynamics of EI and II of E. bovis were noted on the 42nd day of the experiment. The percentage of infected calves aged 47-49 days was 50, and the degree of infection was from 1 to 90 oocysts. In three calves the degree of damage was weak, in 2 it was moderate with AI equal to 2±0 oocysts in the Goryaev chamber or 2222 oocysts in 1 g of feces and signs of DDS. It should be noted that one calf with signs of DDS had a mixed invasion caused by the species E. bovis and E. ellipsoidalis with an AI of 8 and 30 oocysts in 3 drops of flotation liquid.

The thermometry values of heifers in the control group varied within the range of 38.2-39.9°C throughout the entire experiment. Increased rates were recorded in animals with signs of DDS.

When examining the feces of calves in the experimental group, immature oocysts of E. bovis and E. ellipsoidalis were detected only in 3 animals 28 days of the experiment after giving CPI at a dose of 5.0 and 10.0 ml (Table 1). The extent of E. bovis infestation in calves was 20%, and the intensity of infestation was from 4 to 9 oocysts. Invasion caused by E. ellipsoidalis was found in one calf with AI equal to 22 oocysts. Since the degree of infection by E. bovis and E. ellipsoidalis was weak, no signs of diarrhea were observed. The thermometry indicators of heifers in the experimental group were within the range of 38.1-39.8°C throughout the entire experiment. Increased indicators were recorded in animals at the beginning of the study before the introduction of CFI in calves with signs of nutritional dyspepsia.

When the dose of CPI was increased to 15.0 ml, the microscopy result for eimeriosis was negative, therefore, the extension and intensity effectiveness of the coniferous-phytogenic immunomodulator against eimeria species E. bovis and E. ellipsoidalis was 100%.

Thus, the use of the proposed feed additive in the diet of calves from 5-7 days of age at a dose of 5.0, 10.0 and 15.0 ml, once a day, in courses of 2 weeks without intervals contributes to 100% effectiveness against eimeria species E. bovis and E. ellipsoidalis.

The feed additive is well eaten by calves and helps eliminate signs of diarrhea-dyspeptic syndrome and gastroenteritis.

Sources of information accepted during the examination of the application:

1. Skornyakova O.O. Tilomag and Kitofarm work well against eimeriosis in cattle // Scientific notes of the Kazan State Academy of Veterinary Medicine named after. N.E. Bauman. -Kazan, 2020. - Volume 243 (III). - P.249-254.

2. Skornyakova O.O., Belozerov S.N. Basics of therapy and prevention of parasitic diseases of animals (in the Kirov region): Educational and methodological manual. - Kirov: Vyatka State Agricultural Academy, 2016. - P.32-36.

3. Modern approaches in the fight against eimeriosis in chickens / Muzyka V.P., Stetsko T.I., Kalinina O.I. [and others] // Scientific Notes of the VSAVM. -2012. - T.48. - Issue 2. - Part I. - P.9.

4. Khonkiv M.O. Determination of the sensitivity of microorganisms to coccidiostats // Students - science and practice of agro-industrial complex: materials of the 105th International Scientific and Practical Conference of Students and Master's Degrees, Vitebsk, May 20-21, 2020 - Vitebsk: VGAVM, 2020. - P.137.

5. Shangaraev R.I. Pharmaco-toxicological assessment and therapeutic effectiveness of Azomethine “S-18” for nematodirosis and eimeriosis in cattle: diss.... cand. veterinary sciences. - Kazan, 2019. - pp. 26-29.

6. Akbaev M.Sh., Vodyanov A.A., Kosminkov N.E. and others. Parasitology and invasive animal diseases. - M.: Kolos, - 2000. 559 p.

7. Pleshakov S.A., Larionov S.V., Rozovenko M.V. Efficacy of furakrilin and furazonal for eimeriosis in rabbits // Journal of Veterinary Medicine. - No. 8. - Saratov, 1997. p. 28-30.

8. Pleshakov S.A. Scientific basis for the use of complex preparations based on nitrofurans for eimeriosis in rabbits // Abstract of thesis. diss.candidate. Veterinary Sciences - 1999. - 18 p.

9. Ponomarenko V.Ya. On the issue of chemoprophylaxis of coccidiosis in rabbits // Materials of the scientific conference of parasitologists of the UASSR. - 4.2. - Kyiv. - 1975. - St. Petersburg.

10. RF Patent 2154470. Publ. 08/20/2000.

11. RF Patent 2234932. Publ. 08/27/2004.

12. RF Patent 2714265 Publ. 02/13/2020 Bulletin. No. 5.

Claims (1)

A method for the prevention of eimeriosis in calves, including the introduction of a feed additive containing a coniferous energy additive into the main diet; flax-seed; feed yeast and active carbon feed additive at the following ratio of initial components, wt. %: coniferous energy additive 80.0; flaxseed 3.0; feed yeast 7.0; active coal feed additive 10.0; which is used in conjunction with the main diet from 5-7 days of age, gradually increasing the dose to 5.0, 10.0 and 15.0 ml, once a day, in courses of 2 weeks without intervals for 42 days.