Performance Indicators, Coccidia Oocyst Counts, Plasma Biochemical Parameters and Fermentation Processes in the Cecum of Rabbits Fed a Diet with the Addition of Black Cumin Seed Meal

Abd El-Hack M.E., Alagawany M., Farag M.R., Tiwari R., Karthik K., Dhama K. (2016). Nutritional, healthical and therapeutic efficacy of black cumin (Nigella sativa) in animals, poultry and humans. Int. J. Pharm., 12: 232–248.10.3923/ijp.2016.232.248 Search in Google Scholar

Abd El-Hack M.E., El-Shall N.A., El-Kasrawy N.I., El-Saadony M.T., Shafi M.E., Zabermawi N.M., Alshilawi M.S., Alagawany M., Khafaga A.F., Bilal R.M., Elnesr S.S., Aleya L., AbuQamar S.F., El-Tarabily K.A. (2022). The use of black pepper (Piper guineense) as an ecofriendly antimicrobial agent to fight foodborne microorganisms. Environ. Sci. Pollut. Res., 29: 10894–10907.10.1007/s11356-021-17806-7 Search in Google Scholar

Abdel-Daim M.M., Ghazy E.W. (2015). Effects of Nigella sativa oil and ascorbic acid against oxytetracycline-induced hepatorenal toxicity in rabbits. Iranian J. Basic Med. Sci., 18: 221–227. Search in Google Scholar

Abdel Gabbar M., Ahmed R.R., Kandeil M.A., Mohamed A.E.-D.H., Ali S.M. (2019). Administration of ginger and/or thyme have highly ameliorative effect on liver and kidney functions of V-line rabbits: Histological and biochemical study. J. Anim. Physiol. Anim. Nutr., 103: 1758–1767.10.1111/jpn.13166 Search in Google Scholar

Abdel-Wareth A.A., Kehraus S., Ali A.H., Ismail Z.S., Südekum K.H. (2015). Effects of temporary intensive feed restriction on performance, nutrient digestibility and carcass criteria of growing male Californian rabbits. Archiv. Anim. Nutr., 69: 69–78.10.1080/1745039X.2014.1002672 Search in Google Scholar

Ahmad A., Husain A., Mujeeb M., Khan S., Najmi A.K., Siddique N.A., Damanhouri Z.A., Anwar F. (2013). A review on therapeutic potential of Nigella sativa: A miracle herb. Asian Pac. J. Trop. Biomed., 3: 337–352.10.1016/S2221-1691(13)60075-1 Search in Google Scholar

Alagawany M., Abd El-Hack M.E., Farag M.R., Shaheen H.M., Abdel-Latif M.A., Noreldin A.., Khafaga A.F. (2020). The applications of Origanum vulgare and its derivatives in human, ruminant and fish nutrition – a review. Ann. Anim. Sci., 20: 389–407.10.2478/aoas-2020-0004 Search in Google Scholar

Aldalou A.R. (2021). Hypolipidemic effects of curcumin, cinnamon, vitamin C and simvastatin in domestic rabbits. GSC Biol. Pharmac. Sci., 15: 119–134.10.30574/gscbps.2021.15.1.0103 Search in Google Scholar

Alsaadi S.A.R.A. (2021). Anti-hyperglycemic potential of basil seeds aqueous extract in hematological and biochemical changes in domestic rabbits. Appendix. J. Kirkuk Univ. Agric. Sci., 12: 1–11. Search in Google Scholar

AOAC (2006). Association of Official Analytical Chemists. Official methods of analysis. 18th ed. Arlington (VA): Association of Analytical Communities. Search in Google Scholar

Awolade P., Cele N., Kerru N., Gummidi L., Oluwakemi E., Singh P. (2020). Therapeutic significance of β-glucuronidase activity and its inhibitors: a review. Eur. J. Med. Chem., 187: 111921.10.1016/j.ejmech.2019.111921 Search in Google Scholar

Ayo-Ajasa O.Y., Abiona J., Egbeyale L., Fafiolu A., Bamidele L., Fatola O. (2021). Effect of dietary supplementation of Moringa oleifera leaf meal on blood profile, haemagglutination potential and testicular activities of rabbits. Pol. J. Nat. Sci., 36: 95–106. Search in Google Scholar

Badr A.M.M. (2019). Prediction of the apparent ileal digestibility of diets containing caraway seed sieving for rabbits by its chemical components or by in-vitro enzymatic analysis and compared it with in vivo digestibility values. Egypt. J. Nutr. Feeds, 22: 329–345.10.21608/ejnf.2019.79426 Search in Google Scholar

Baghdadi H.B., Al-Mathal E.M. (2011). Anti-coccidial activity of Nigella sativa L. J. Food Agric. Environ., 9: 10–17. Search in Google Scholar

Cardinali R., Cullere M., Dal Bosco A., Mugnai C., Ruggeri S., Mattioli S., Castellini C., Trabalza Marinucci M., Dalle Zotte A. (2015). Oregano, rosemary and vitamin E dietary supplementation in growing rabbits: Effect on growth performance, carcass traits, bone development and meat chemical composition. Livest. Sci., 175: 83–89.10.1016/j.livsci.2015.02.010 Search in Google Scholar

Chrastinová L., Chrenková M., Polačikova M., Laukova A., Pogány Simonová M., Szabóová R., Strompfová V., Ondruska L., Rafay J., Vasilková Z., Placha I., Faix Š., Haviarová M., Mojto J. (2009). Utilization of an extract product from ginseng supplementation in diets and different energy levels of granulated feed in the nutrition of rabbits. Arch. Zootech. 12: 72–79. Search in Google Scholar

Combes S., Fortun-Lamothe L., Cauquil L., Gidenne T. (2013). Engineering the rabbit digestive ecosystem to improve digestive health and efficacy. Animal, 7: 1429–1439.10.1017/S1751731113001079 Search in Google Scholar

Djouzi Z., Andrieux C. (1997). Compared effect of the three oligosaccharides on metabolism of intestinal microflora on rats inoculated with a human faecal flora. Br. J. Nutr., 78: 313–324.10.1079/BJN19970149 Search in Google Scholar

El Bagir N.M., Farah I.T.O., Elhag S.M.B., Alhaidary A., Mohamed H.E., Beynen A.C. (2010). Immune response and pasteurella resistance in rabbits fed diets containing various amounts of black cumin seeds. Am. J. Anim. Vet. Sci., 5: 163–167.10.3844/ajavsp.2010.163.167 Search in Google Scholar

El-Saadony M.T., Zabermawi N.M., Zabermawi N.M., Burollus M.A., Shafi M.E., Alagawany M., Elnesr, S.S., Elwan H., Di Cerbo A., El-Tarabily K.A., Abd El-Hack M.E. (2021). Nutritional aspects and health benefits of bioactive plant compounds against infectious diseases: A review. Food Rev. Int., 1–23.10.1080/87559129.2021.1944183 Search in Google Scholar

Elwan H., Abdelhakeam M., El-Shafei S., El-Rahman A.A., Ismail Z., Zanouny A., Shaker E., Al-Rejaie S.S., Mohany M., Elnesr S.S. (2020). Efficacy of dietary supplementation with Capsicum annum L. on performance, hematology, blood biochemistry and hepatic antioxidant status of growing rabbits. Animals, 10: 2045.10.3390/ani10112045 Search in Google Scholar

Elwardany A.R., El-Banna H.M.A.E., Ibrahim M.R.M., Mahmoud A.E.M. (2022). Effect of medicinal and aromatic plants on growth, digestibility and carcass in New Zealand White rabbits. Pak. J. Biol. Sci., 25: 282–288.10.3923/pjbs.2022.282.288 Search in Google Scholar

Funosas G., Triado-Margarit X., Castro F., Villafuerte R., Delibes-Mateos M., Rouco C., Casamayor E.O. (2021). Individual fate and gut microbiome composition in the European wild rabbit (Oryctolagus cuniculus). Sci. Rep., 11: 766.10.1038/s41598-020-80782-4 Search in Google Scholar

Geciova J., Bury D., Jelen P. (2002). Methods for disruption of microbial cells for potential use in the dairy industry – a review. Int. Dairy J., 12: 541–553.10.1016/S0958-6946(02)00038-9 Search in Google Scholar

Gugołek A., Kowalska D., Konstantynowicz M., Strychalski J., Bukowska B. (2011). Performance indicators, health status and coccidial infection rates in rabbits fed diets supplemented with white mustard meal. Ann. Anim. Sci., 11: 425–432. Search in Google Scholar

Gugołek A., Juśkiewicz J., Strychalski J., Konstantynowicz M., Zwoliński C. (2015). Nutrient digestibility and colonic fermentation processes in species of the families Mustelidae and Canidae fed the same diet. J. Exp. Zool., Part A Ecol. Gen. Phys., 323: 637–644.10.1002/jez.1954 Search in Google Scholar

Hashemipour H., Kermanshahi H., Golian A., Khaksar V. (2014). Effects of carboxy methyl cellulose and thymol + carvacrol on performance, digesta viscosity and some blood metabolites of broilers. J. Anim. Physiol. Anim. Nutr., 98: 672–679.10.1111/jpn.12121 Search in Google Scholar

Hofirek B., Haas D. (2001). Comparative studies of ruminal fluid collected by oral tube or by puncture of the caudorental ruminal sac. Acta Vet. Brno, 70: 27–33.10.2754/avb200170010027 Search in Google Scholar

Holota Y., Dovbynchuk T., Kaji I., Vareniuk I., Dzyubenko N., Chervinska T., Zakordonets L., Stetska V., Ostapchenko L., Serhiychuk T., Tolstanove G. (2019). The long-term consequences of antibiotic therapy: Role of colonic short-chain fatty acids (SCFA) system and intestinal barrier integrity. PLoS One, 14: e0220642.10.1371/journal.pone.0220642 Search in Google Scholar

Hong S., Kyung M., Jo I., Kim Y.-R., Ha N.-C. (2018). Structure-based protein engineering of bacterial β-xylosidase to increase the production yield of xylobiose from xylose. Biochem. Biophys. Res. Communn, 501: 703–710.10.1016/j.bbrc.2018.05.051 Search in Google Scholar

Jurgoński A., Juśkiewicz J., Zduńczyk Z. (2013). An anthocyanin-rich extract from Kamchatka honeysuckle increases enzymatic activity within the gut and ameliorates abnormal lipid and glucose metabolism in rats. Nutrition, 29: 898–902.10.1016/j.nut.2012.11.006 Search in Google Scholar

Kabir Y., Shirakawa H., Komai M. (2019). Nutritional composition of indigenous cultivar of black cumin seeds from Bangladesh. Progr. Nutr., 21: 428–434. Search in Google Scholar

Konieczka P., Smulikowska S. (2018). Viscosity negatively effects the nutritional value of blue lupin seeds for broilers. Animal, 12: 1144–1153.10.1017/S1751731117002622 Search in Google Scholar

Kostakioti M., Newman C.L., Thanassi D.G., Stathopoulos C. (2005). Mechanisms of protein export across the bacterial outer membrane. J. Bacteriol., 187: 4306–4314.10.1128/JB.187.13.4306-4314.2005 Search in Google Scholar

Maertens L., Moermans R., De Groote G. (1988). Prediction of the apparent digestible energy content (ADE) of commercial pelleted feeds for rabbits. J. Appl. Rabbit Res., 11: 60–67. Search in Google Scholar

Mahmoud M.R., El-Abhar H.S., Saleh S. (2002). The effect of Nigella sativa oil against the liver damage induced by Schistosoma mansoni infection in mice. J. Ethnopharmacol., 79: 1–11.10.1016/S0378-8741(01)00310-5 Search in Google Scholar

Mancini S., Paci G. (2021). Probiotics in rabbit farming: growth performance, health status, and meat quality. Animals, 11: 3388.10.3390/ani11123388 Search in Google Scholar

Mosele J.I., Macia A., Motilva M.-J. (2015). Metabolic and microbial modulation of the large intestine ecosystem by non-absorbed diet phenolic compounds: a review. Molecules, 20: 17429–17468.10.3390/molecules200917429 Search in Google Scholar

Naji K.M., Al-Shaibani E.S., Alhadi F.A., Al-Soudi S.A., D’Souza M.R. (2017). Hepatoprotective and antioxidant effects of single clove garlic against CCl4-induced hepatic damage in rabbits. BMC Compl. Altern. Med., 17: 411.10.1186/s12906-017-1916-8 Search in Google Scholar

Natividad J.M.M., Verdu E.F. (2013). Modulation of intestinal barrier by intestinal microbiota: pathological and therapeutic implications. Pharmacol. Res., 69: 42–51.10.1016/j.phrs.2012.10.007 Search in Google Scholar

Omer H.A.A., El-Nomeary Y.A.A., El-Kady R.I., Badr A.M.M., Ali F.A.F., Ahmed S., El-Allowy H.M.H., Ibrahim S.A.M. (2013). Improving the utilization of rabbit diets containing vegetable oil by using fennel (Foeniculum vulgare L.) and oregano (Origanum vulgare L.) as a feed additives. Life Sci. J., 10: 2625–2636. Search in Google Scholar

Pastuszko J. (1963). Rabbits coccidiosis in Poland. (In Polish). Pol. Arch. Wet., 8: 129–139. Search in Google Scholar

Peiretti P.G., Meineri G. (2008). Effects of diets with increasing levels of Spirulina platensis on the performance and apparent digestibility in growing rabbits. Livest. Sci., 118: 173–177.10.1016/j.livsci.2008.04.017 Search in Google Scholar

Petrujkić B.T., Beier R.C., He H., Genovese K.J., Swaggerty C.L., Hume M.E., Crippen T.L., Harvey R.B., Andersen R.C., Nisbet D.J. (2017). Nigella sativa L. as an alternative antibiotic feed supplement and effect on growth performance in weanling pigs. J. Sci. Food Agric., 98: 3175–3181.10.1002/jsfa.8823 Search in Google Scholar

Pogány Simonová M., Chrastinová Ľ., Kandričáková A., Gancarčíková S., Bino E., Plachá I., Ščerbová J., Strompfová V., Žitňan R., Lauková A. (2020). Can enterocin M in combination with sage extract have beneficial effect on microbiota, blood biochemistry, phagocytic activity and jejunal morphometry in broiler rabbits? Animals, 10: 115.10.3390/ani10010115702259131936774 Search in Google Scholar

Purwin C., Gugołek A., Strychalski J., Fijałkowska M. (2019). Productivity, nutrient digestibility, nitrogen retention, and meat quality in rabbits fed diets supplemented with Sida hermaphrodita. Animals (Basel), 9: 901.10.3390/ani9110901 Search in Google Scholar

Ramadan M.F., Asker M.M.S., Tadros M. (2012). Antiradical and antimicrobial properties of cold-pressed black cumin and cumin oils. Eur. Food Res. Technol., 234: 833–844.10.1007/s00217-012-1696-9 Search in Google Scholar

Ramin K.I., Allison S.D. (2019). Bacterial tradeoffs in growth rate and extracellular enzymes. Front. Microbiol., 10: 2956.10.3389/fmicb.2019.02956 Search in Google Scholar

Seddiek S.A., Metwally A.M.M. (2013). Anticoccidial activity of black cumin (Nigella sativa) in rabbits. Assiut Vet. Med. J., 59: 85–96.10.21608/avmj.2013.171808 Search in Google Scholar

Skiba G., Raj S., Sobol M., Kowalczyk P., Grela E.R. (2021). Role of polyphenols in the metabolism of the skeletal system in humans and animals – a review. Ann. Anim. Sci., 21: 1275–1300.10.2478/aoas-2021-0040 Search in Google Scholar

Steck N., Mueller K., Schemann M., Haller D. (2012). Bacterial proteases in IBD and IBS. Gut, 61: 1610–1618.10.1136/gutjnl-2011-300775 Search in Google Scholar

Strychalski J., Juśkiewicz J., Gugołek A., Wyczling P., Daszkiewicz T., Zwoliński C. (2014). Usability of rapeseed cake and wheat-dried distillers’ grains with solubles in the feeding of growing Californian rabbits. Archiv. Anim. Nutr., 68: 227–244.10.1080/1745039X.2014.921482 Search in Google Scholar

Van Soest P.J., Robertson J.B., Lewis B.A. (1991). Methods for dietary fiber, neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition. J. Dairy Sci., 74: 3583–3597.10.3168/jds.S0022-0302(91)78551-2 Search in Google Scholar

Velasco-Galilea M., Piles M., Viñas M., Rafel O., González-Rodríguez O., Guivernau M., Sánchez J.P. (2018). Rabbit microbiota changes throughout the intestinal tract. Front. Microbiol., 9: 2144.10.3389/fmicb.2018.02144 Search in Google Scholar

Żary-Sikorska E., Fotschki B., Kosmala M., Milala J., Matusevicius P., Rawicka A., Juśkiewicz J. (2021). Strawberry polyphenol-rich fraction can mitigate disorders in gastrointestinal tract and liver functions caused by a high-fructose diet in experimental rats. Pol. J. Food Nutr. Sci., 71: 423–440.10.31883/pjfns/143057 Search in Google Scholar