Effect of different levels of marigold (Calendula officinails) oil extract on performance, blood parameters and immune response of broiler chickens challenged with CCl4

Document Type : Poultry Nutrition

Authors

1 Department of Animal Science, Faculty of agriculture, Ferdowsi University of Mashhad, Mashhad, Iran

2 Department of Animal Science, Faculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, Iran

3 Department of Animal Sciences, Faculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, Iran.

4 agricultural science and natural resources University of Gorgan

Abstract

Introduction Although use of antibiotic as growth promoter in poultry and animal nutrition have led to positive effects, researches indicated that antibiotic residues in animal and poultry products caused resistance of bacteria and fungi strains and a resistance to antibiotics as a treatment tool for human diseases. Herbal extracts, probiotics and enzymes are suggested as replacers for antibiotics in animal and poultry nutrition. Plants and their active substances with their variety of functions are used as medicinal plants for years to prevent and treat many diseases in human, animal and poultry. Oil extracts of marigold has many active substances such as saponins, flavonoids and antioxidants and serve as a strong antioxidant to control free radicals. Therefore, the extract of marigold was used to test its curing effects on challenged birds with tetra hydrochloride (CCl4), an inducer for liver damage.
Material and methods This experiment was conducted to evaluate the effects of marigold oil extracts (MOE) on performance, blood parameters and immune response of broiler chickens in a 42-day period. A total of 200 Ross 308 male broiler chickens were allocated to five dietary treatments with four replicates of 10 birds each. Treatments consisted of 1) control (without marigold extract and CCl4), 2) CCl4, 3-5) 150, 300, and 450 mg/kg marigold oil extract as supplement + CCl4 (1 mg/kg body weight). CCl4 was injected intraperitoneally from 21 to 30 days of age in a 2- day intervals. During this period sodium chloride (0.9%) was added to control group. At day 33, one chick from each replicate of treatments was selected, and their blood and internal organs were used for different bio assays.
Results and Discussion No significant differences detected among treatments for performance. However, the highest and the lowest feed intake at starter and grower periods obtained from the treatments used MOE and control groups, respectively (table 2). The highest and the lowest weight gain were also observed for the birds received 300 mg /kg MOE + CCl4 and CCL4 groups, respectively. Many studies have revealed that phytobiotics had no effect on performance of the birds when marigold, cinnamon and Garlic powder were applied as supplements into the diets. The results are in agreement with those of this study. Birds fed different levels of MOE + CCl4 had higher liver weights than those of birds received only CCl4. However, this effect was not significant. In control group, liver weight was lower (P> 0.05) than that of the birds received CCl4 (1.581 vs 1.451) and MOE alleviated the negative effect of CCl4 on this trait (table 5). The relative weight of the thymus at 33 days of age (table 4) and the IgG level (table 3) at 28 and 35 days of age in the group received 300 mg/Kg of MOE + CCl4 were significantly higher (P> 0.05). Levels of blood metabolites (SGOT and SGPT) were increased when CCl4 was added to the diets (table 5) and MOE was able to reduce the negative effects of CCl4. Levels of cholesterol and triglycerides were significantly decreased in the birds received MOE when compared with those of the birds in positive control group (P< 0.05). MOE again was able to decrease the negative effect of CCl4 on blood metabolites of bilirubin, cholesterol, and triglyceride. MOE possess hepatoprotective property that might be attributed to its active substances (flavonoids) present in the flower of marigold. Plants and plant extracts having flavonoids and phenolic compounds are able to have the most antioxidant properties. The extracts of marigold contain abundant amounts of active biological metabolites of flavonoids and terpenoids and the alleviating effect of MOE on organ weights, blood metabolites and immunological indices might be due to these substances.
Conclusion Under the conditions of this study, it was concluded that marigold oil extract at moderate levels is able to decrease the negative effects of CCl4 induced hepatic cell injuries and can be used as a suitable natural antioxidant in poultry nutrition.

Keywords


1- Beygi, A. 2000. Production and processing of medicinal plants. N.3. Khorasan Razavi. Astan Ghods publication (In persian).
2- Sadeghi, H., A. Gheytasi., N. Mazrooghi., S. Sabz Ali. 2007. Investigation of liver protective effects of Durema aucheri L. on toxicity treatment by ccl4 in glosbe. Medical university of Shahre-Kord. 6(4): 38.43 (In persian).
3- Avijeet, J., S. Manish., D. Lokesh., J. Anuurekha., V. Gupta., and K. Krishna. 2008. Antioxidant and hepatoprotectiveactivity of ethanolic and aqueousextracts of Momordicadioica Roxb. Journal of Ethnicity, 115: 61-66.
4- Azzaz, N. A., E. A. Hassan., and F. A. Emarey. 2009. Physiological, anatomical, and biochemical studies on pot marigold (Calendula officinalis L.) plants.African Crop Science Conference Proceedings, 8:1727-1738.
5- Basavaraj, V. C., V. B. Karnakumar., and S. Sh. Rajabhau. 2011. Evaluation of Hepatoprotective Activity of Flowers of “Tagetes erecta linn”. International Journal of Pharmacology & Biology, 2:692-695.
6- Basch, E., S. Bent., I. Foppa., S. Haskmi., D. Krol., M. Mele., P. Szapary., C. Ulbricht., M. Vora., and S. Yong. 2006. Marigold (Calendula officinalis L.): An evidence-based systematic reviewby the natural standard research collaboration. Journal of Herb Pharmacother, 6 :(3-4) 135.
7- Brenes, A., and E. Roura. 2010. Essential oils in poultry nutrition: main effects and modes of action. Animal Feed Science &Technology, 158: 1-14.
8- Braga, P.C., S. M. Dal., M. Culici., A. Spallino., M. Falchi., A. Bertelli., R. Morelli., and S. R. Lo. 2009. Antioxidant activity of Calendula officinalis extract: inhibitory effects on chemiluminescence of human neutrophil bursts and electron paramagnetic resonance spectroscopy. Journal of Pharmacology, 83(6): 348-55.
9- Chalchat, J. C., R. P. Garry., and A. Michet. 2009. Chemical composition of essential oil of Calendula officinalis L. (pot marigold) Flavour and Fragrance. Indian Journal of Pharmacology, 6(3): 189–192.
10- Christake, E., V. Paneri., I. Giannenas., M. Papazahariadou., N. A. Botsoglou., and A. B. Spais. 2004. Effect of mixture of herbal extract on broiler chicken infected with eimeria tenella. Animal Research, 53: 137-144.
11- Ciftci, M., T. Gϋler., B. Dalkiliç., and N. Ertas. 2005.The effect of anise oil (Pimpinella anisum L.) on broiler performance. International Journal of Poultry Science, 4: 851-855
12- Cordova, C. A., I. R. Siqueira., C. A. Netto., R. A. Yunes., A. M. Volpato., V. Cechinel Filho., R. Curi-Pedrosa., and T. B. Creczynski-Pasa. 2002. Protective properties of butanolic extract of the Calendula officinalis L. (marigold) against lipid peroxidation of rat liver microsomes and action as free radical scavenger. Redox Report, 7: 95-102.
13- Erick, J. R., E. S. Silva., F. A. Gonçalves., B. Liriane., M. M. A. Evêncio., O. C. Lyra., C. A. Coelho, Maria do Carmo., and G. Almir.. 2007. Toxicological studies on hydroalcohol extract of Calendula officinalis L. Phytology Research, 332–336.
14- Ferre, N., K. Camps., M. Cabre., A. Paul., and J. Joven. 2001. Hepatic paraoxygenase activity alterations and free radical production in rats with experimental cirrhosis. Indian Journal of pharmacology, 50: 997-1000.
15- Fronza, M., B. Heinzmann., M. Hamburger., S.Laufer., I. Merfort. 2009. Determination of the wound healing effect of Calendula extracts using the scratch assay with 3T3 fibroblasts. Journal Ethnicity Pharmacology, 126(3): 463-7.
16- Guinot, P., A. Gargadennec., G. Valette., A. Fruchier., and C. Andary. 2008. Primary flavonoids in marigold dye: extraction, structure and involvement in the dyeing process. Phytology Annal, 19(1): 46-51.
17- Hernandez, F., J. Madrid., V. Garcia., J. Orengo., and M. D. Megias. 2004. Influence of two plant extracts on broiler performance, digestibility and digestive organ size. Poultry Science, 83: 169-174.
18- Jayasekhar, P., and P. V. Mohanan. 1997. Rathinam K. Hepatoprotective activity of ethyl acetate extract of Acacia catechu. Indian Journal of Pharmacology, 29: 426-8.
19- Kassab, S., M. Cummings., S. Berkovitz., H. R. Van., and P. Fisher. 2009. Homeopathic medicines for adverse effects of cancer treatments. Cochrane Data base of Systematic Reviews, 15(2): CD004845.
20- Kasprzyk, Z., and J. Pyrek. 1968. Triterpenic alcohols of Calendula officinalis L. flowers Phytochemistry. Journal of Animal Science, 7(9): 1631-1639.
21- Krag, K. 1976. Plants used as contraceptives by the North American Indians: an ethnobotanical study. Botanical Museum Cambridge Harward University, 1177.
22- Lee, K. W., H. Everts., H. J. Kappert., M. Frehner., R. Losa., A. C. Beynen. 2003. Effects of dietary essential oil components on growth performance, digestive enzymes and lipid metabolism in female broiler chickens. British Journal of Poultry Science, 3: 738-752.
23- Lin, L. T., Liu, L. T., Chiang, L. C., Lin, C. C. 2002. In vitro anti-hepatoma activity of fifteen natural medicines from Canada. Phytology Research, 16: 440-444.
24- Manal, S. H., H. Osama., S. El-Tawil., Y. Nour El-Hoda., and A. A. Khalid. 2010. The protective effect of Morus Albaand Calendula Officinalisplant extracts on Carbon Tetrachloride- induced hepatotoxicity in isolated rat hepatocytes. Journal of American Science, 6: 78-90.
25- Manoj, B., and U. K. Aqueed. 2003. Protective role of Lawsonia Alba Lam against CCl4 induced hepatic damage in albino rats. Indian Journal of Exprimental Biology, 41:85-87.
26- Masuda, Y. 2006. Learning toxicology from Carbon Tetrachloride-induced hepatotoxicity. Journal Pharmacology Society Japanis, 126(10): 885-899.
27- Muley, B. P., S. S. Khadabadi., and N. B. Banarase. 2009. Phytochemical constituents and pharmacological activities of Calendula officinalis L. Review Tropical Journal Pharmacology Research, .8: 455-465.
28- Neukiron, H., M. Ambrosio., J. Dovia., and A. Guerriero. 2004. Simultaneous quantitative determination of eight triterpenoid monoesters from flowers of 10 varieties of Calendula officinalis L. and characterisation of a new triterpenoid monoester. Phytology Annal, 15: 30-35.
29- Noguchi, T., K. L. Fong., E. Lai., L. Olson., and P. B. McCay. 1982. Selective early loss of polypeptides in liver microsomes of CCl4 treated rats_ Relationship to cytochrome p-450 content. Biology Pharmacology, 31-60.
30- Ozbek, H., M. Ozturk., I. Bayarm., S. Ugras., G. S. Citoglu. 2003. Hypoglycemic and hepatoprotective effects of Foeniculum vulgar Miller seed fixed oil extract in mice and rats. East Journal Medicine, 8: 35-40.
31- 31.Park, S. W., C. H. Lee., Y. S. Kim., S. S. Kang., S. J. Jeon., K. H. Son., and S. M. Lee. 2008. Protective effect of baicalin against Carbon Tetrachloride-induced acute hepatic injury in Mice. Journal Pharmacology Science, 11:121-140.
32- Pietta, P., A. M. P. Bruno., and A. Rava. 1992. Separation of flavonol-2-O-glycosides from Calendula officinalis and Sambucus nigra by high-performance liquid and micellar electrokinetic capillary chromatography. Journal of Chromatography, 593:165-170.
33- Pradeep, K., and C. V. Mohan., K. Gobianand., and S. Karthikeyan. 2007. Silymarin modulates the oxidant-antioxidant imbalance during diethylnitrosamine induced oxidative stress in rats. Europe Journal of Pharmacology, 560(2-3): 110-6.
34- Preethi, K. C., and G. Kuttan. 2009. Antiinflammatory activity of flower extract ofCalendula officinalis L. and its possible mechanism of action. Indian Journal Exprimental Biology, 47(2): 113-20.
35- Rios, J. L., M. C. Recio., S. Mañez., and R. M. Giner. 2000. Natural triterpenoids as anti inflammatory agents. Studies in Natural Products Chemistry, 22(3): 93- 143.
36- Saman, S. and N. C. Cook. 1996. Flavonoids chemistry, metabolism, cardio protective effects, dietary sources. Journal Nutrient Biology, 7: 66-76.
37- Sethuraman, M. G., K. G. Lalitha., and B. Rajkapoor. 2003. Hepatoprotective activity of sarcostemma brevistigma against carbon tetrachloride-induced hepatic damage in rats. Current Science, 84: 1186-7.
38- Shams Ghafarokhi, M., M. Razafsha., A. Allameh., and M. Razzaghi Abyaneh. 2003. Inhibitory effect of Aqueous Onion and Garlic Extracts on growth and keratinase activity in trichophyon Mentagro phytes. Journal of Iranian Biomededical, 7: 113-118.
39- Smets, F., M. Najimi., and E. M. Sokal. 2008. Cell transplantation in the treatment of liver diseases. Pediatr Transplant, 12:6-13.
40- Sonkusale, P., A. G. Bhandarker., N. V. Kurkare., K. Ravikanth., S. Maini., and D. Sood. 2011. Hepatoprotective activity of superliv liquid and repchol in CCl4 induced FLKS Syndrome in broilers. Poultry Science, 10 (1): 49-55.
41- Takahashi, K., T. Mashiko., and Y. Akiba. 2000. Effects of dietary concentration of xylitol on growth in male broiler chicks during immunological stress. Poultry Science, 79: 743-747.
42- Taniguchi, M., T. Takeuchi., R. Nakatsuka., T. Watanabe., and K. Sato. 2004. Molecular process in acute liver injury and regeneration induced by carbon tetrachloride. Life Science, 75. 1539.
43- Thomke, S., and K. Elwinger. 1998. Growth promotes in feeding pigs and poultry. II. Mode of action of antibiotic growth promotes. Annal Zootechnic, 47: 153-167.
44- Vengerovskiĭ, A. I., and V. A. Khazanov. 2007. Effects of silymarin and its combination with succinic acid on brain bioenergetics in rats with experimental inhibition of beta-oxidation of fatty acids. Eksp Klin Farmakology, 70(2): 51-5.
45- Venukumar, M. R., and M. S. Latha. 2002. Hepatoprotective of the methanolic extract of Curculigo orchioides in CCl4-treated male rats. Indian Journal Pharmacology, 34: 269-75.
46- Yang, H., M. K. Lee., and Y. C. Kim. 2005. Protective activities of stilbene glycosides from Acer mono leaves against H2O2-induced oxidative damage in primary cultured rat hepatocytes. Journal Agricultural Food Chemistry, 53: 4182-6.
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