Origanum majorana Essential Oil Ameliorated the Behavioral, Biochemical, Physiological and Performance Perturbations Induced by Aflatoxin B1 in Growing Rabbits

Abd-Elghany S.M., Sallam K.I. (2015). Rapid determination of total aflatoxins and ochratoxins A in meat products by immuno-affinity fluorimetry. Food Chem., 179: 253–256. Search in Google Scholar

Abdelhamid A.M., El-Shawaf I., El-Ayoty S.A., Ali M.M., Gamil T. (1990). Effect of low level of dietary aflatoxins on Baladi rabbits. Archiv Tierernah., 40: 517–537. Search in Google Scholar

Abdelhamid A.M., Ragab M.A., El-Shaieb A.F. (2002). The use of tafla or aluminosilicate for alleviating toxic effects of aflatoxin-contaminated diets of growing rabbits. Proc. 1st Conf. Anim. Fish Prod., Mansoura, Egypt. Search in Google Scholar

Agriopoulou S., Stamatelopoulou E., Varzakas T. (2020). Advances in occurrence, importance, and mycotoxin control strategies: prevention and detoxification in foods. Foods (Basel, Switzerland), 9: 137. Search in Google Scholar

Ahmed G., Abdel-Ghany A. (2015). The effect of Origanum majorana supplementation on growth performance, blood parameters and meat quality in BUT9 commercial turkeys. J. Anim. Poult. Fish Prod., 3: 17–29. Search in Google Scholar

Ali A. (2014). Productive performance and immune response of broiler chicks as affected by dietary marjoram leaves powder. Egypt. Poult. Sci. J., 34: 57–70. Search in Google Scholar

Amor G., Caputo L., La Storia A., De Feo V., Mauriello G., Fechtali T. (2019). Chemical composition and antimicrobial activity of Artemisia herba-alba and Origanum majorana essential oils from Morocco. Molecules, (Basel, Switzerland), 24: 4021. Search in Google Scholar

AOAC (1990). Official methods of analysis. Association of Official Analytical Chemists. 14th ed. Washington, D.C. Search in Google Scholar

Arranz E., Jaime L., López de las Hazas M.C., Reglero G., Santoyo S. (2015). Supercritical fluid extraction as an alternative process to obtain essential oils with anti-inflammatory properties from marjoram and sweet basil. Indust. Crops Prod., 67: 121–129. Search in Google Scholar

Atef H.A., Mansour M.K., Ibrahim E.M., Al-Kalamawy N.M., Dar-wish A.S., Ali M.A., Rady F. M. (2016). Aflatoxicosis in rabbits with particular reference to its control by n acetyl cysteine and probiotic. Int. J. Curr. Res., 8: 25547–25560. Search in Google Scholar

Bakr E.S.O., Badawi L., Abdel Ghaffar M.A., Mousa M.R. (2017). Effects of rosemary and marjoram supplementation on growth performance, digestibility and economic efficiency of growing rabbits. Egypt. J. Rabbit Sci., 27: 245–266. Search in Google Scholar

Ben Salha G., Herrera Díaz R., Lengliz O., Abderrabba M., Labidi J. (2019). Effect of the chemical composition of free-terpene hydrocarbons essential oils on antifungal activity. Molecules (Basel, Switzerland), 24: 3532. Search in Google Scholar

Bina F., Rahimi R. (2017). Sweet marjoram: a review of ethnopharmacology, phytochemistry, and biological activities. J. Evid. Complement. Alt. Med., 22: 175–185. Search in Google Scholar

Chaudhari A.K., Singh V.K., Das S., Deepika, Prasad J., Dwivedy A.K., Dubey N.K. (2020). Improvement of in vitro and in situ antifungal, AFB₁ inhibitory and antioxidant activity of Origanum majorana L. essential oil through nanoemulsion and recommending as novel food preservative. Food Chem. Toxicol., 143: 111536. Search in Google Scholar

Clark J.D., Jain A.V., Hatch R.C., Mahaffey E.A. (1980). Experimentally induced chronic aflatoxicosis in rabbits. Am. J. Vet. Res., 41: 1841–1845. Search in Google Scholar

Ebani V.V., Mancianti F. (2020). Use of essential oils in veterinary medicine to combat bacterial and fungal infections. Vet. Sci., 7: 193. Search in Google Scholar

Elbasuni S.S., Ibrahim S.S., Elsabagh R., Nada M.O., Elshemy M.A., Ismail A.K., Mansour H.M., Ghamry H.I., Ibrahim S.F., Alsaati I., Abdeen A., Said A.M. (2022). The preferential therapeutic potential of Chlorella vulgaris against aflatoxin-induced hepatic injury in quail. 14: 843. Search in Google Scholar

Farouk A., Ali H., Al-Khalifa A.R., Mohsen M., Fikry R. (2017). Aroma volatile compounds of parsley cultivated in the Kingdom of Saudi Arabia and Egypt extracted by hydrodistillation and headspace solid-phase microextraction. Int. J. Food Propert., 20: S2868–S2877. Search in Google Scholar

Ghazal T.S.A., Schelz Z., Vidács L., Szemerédi N., Veres K., Spengler G., Hohmann J. (2022). Antimicrobial, multidrug resistance reversal and biofilm formation inhibitory effect of Origanum majorana extracts, essential oil and monoterpenes. Plants (Basel, Switzerland), 11: 1432. Search in Google Scholar

Gunn D., Morton D.B. (1995). Inventory of the behaviour of New Zealand White rabbits in laboratory cages. Appl. Anim. Behav. Sci., 45: 277–292. Search in Google Scholar

Hassan A.A., Abu Hafsa S.H., Elghandour M.M.M.Y., Kanth Reddy P.R., Monroy J.C., Salem. A.Z.M. (2019). Dietary supplementation with sodium bentonite and coumarin alleviates the toxicity of aflatoxin B₁ in rabbits. Toxicon, 171: 35–42. Search in Google Scholar

Hassan A.A., Mansour M.K., Sayed-ElAhl R.M.H., Tag El-Din H.A., Awad M.E.A., Younis E.M. (2020). Influence of selenium nanoparticles on the effects of poisoning with aflatoxins. Adv. Anim. Vet. Sci., 8: 64–73. Search in Google Scholar

Hassan M.A., Abo-Elmaaty A.M.A., Zaglool A.W., Mohamed S.A.M., Abou-Zeid S.M., Farag M.R., Alagawany M., Di Cerbo A., Azzam M.M., Alhotan R., EL-Hady E. (2023). Origanum vulgare essential oil modulates the AFB1-induced oxidative damages, nephropathy, and altered inflammatory responses in growing rabbits. Toxins, 15: 69. Search in Google Scholar

Hu Z., Lausted C., Yoo H., Yan X., Brightman A., Chen J., Wang W., Bu X., Hood L. (2014). Quantitative liver-specific protein fingerprint in blood: a signature for hepatotoxicity. Theranostics, 4: 215–228. Search in Google Scholar

Ibrahim K.I.K. (2000). Effect of aflatoxins and ascorbic acid on some productive and reproductive parameters in male rabbits. M.Sc. Thesis. Alexandria University, Egypt, Faculty of Agriculture. Search in Google Scholar

Jindal N., Mahipal S.K., Mahajan N.K. (1994). Toxicity of aflatoxin B₁ in broiler chicks and its reduction by activated charcoal. Res. Vet. Sci., 56: 37–40. Search in Google Scholar

Juan C.A., Pérez de la Lastra J.M., Plou F.J., Pérez-Lebeña E. (2021). The chemistry of reactive oxygen species (ROS) revisited: outlining their role in biological macromolecules (DNA, lipids and proteins) and induced pathologies. Int. J. Mol. Sci., 22: 4642. Search in Google Scholar

Kaskatepe B., Aslan Erdem S., Ozturk S., Safi Oz Z., Subasi E., Koyuncu M., Vlainić J., Kosalec I. (2022). Antifungal and anti-virulent activity of Origanum majorana L. essential oil on Candida albicans and in vivo toxicity in the Galleria mellonella larval model. Molecules (Basel, Switzerland), 27: 663. Search in Google Scholar

Marai I.F.M., Asker A.A. (2008). Aflatoxins in rabbit production: hazards and control. Trop. Subtrop. Agroecosystems, 8: 1–28. Search in Google Scholar

Mary V.S., Theumer M.G., Arias S.L., Rubinstein H.R. (2012). Reactive oxygen species sources and biomolecular oxidative damage induced by aflatoxin B1 and fumonisin B1 in rat spleen mono-nuclear cells. Toxicology, 302: 299–307. Search in Google Scholar

Mézes M., Balogh K. (2009). Mycotoxins in rabbit feed: A review. World Rabbit Sci., 17: 53–62. Search in Google Scholar

Morisse J.P., Maurice R. (1997). Influence of stocking density or group size on behaviour of fattening rabbits kept under intensive conditions. Appl. Anim. Behav. Sci., 54: 351–357. Search in Google Scholar

Mossa A.T., Nawwar G.A. (2011). Free radical scavenging and anti-acetylcholinesterase activities of Origanum majorana L. essential oil. Human Experiment. Toxicol., 30: 1501–1513. Search in Google Scholar

Mossa A.T., Refaie A.A., Ramadan A., Bouajila J. (2013). Amelioration of prallethrin-induced oxidative stress and hepatotoxicity in rat by the administration of Origanum majorana essential oil. BioMed Res. Int., 2013: 859085. Search in Google Scholar

Moumni M., Romanazzi G., Najar B., Pistelli L., Ben Amara H., Mezrioui K., Karous O., Chaieb I., Allagui M.B. (2021). Antifungal activity and chemical composition of seven essential oils to control the main seedborne fungi of cucurbits. Antibiotics (Basel, Switzerland), 10: 104. Search in Google Scholar

Mousavi Khaneghah A., Fakhri Y., Gahruie H.H., Niakousari M., Sant’Ana A.S. (2019). Mycotoxins in cereal-based products during 24 years (1983–2017): A global systematic review. Trends Food Sci. Technol., 91: 95–105. Search in Google Scholar

NRC (1977). Nutrient Requirements of Rabbits, Second Revised Edition, 1977. The National Academies Press, Washington, DC. Search in Google Scholar

Olteanu D., Filip A., Mureşan A., Nagy A., Tabaran F., Moldovan R., Decea N., Catoi C., Clichici S. (2012). The effects of chitosan and low dose dexamethasone on extrahepatic cholestasis after bile duct ligation in Wistar rats. Acta Physiol. Hungarica, 99: 61–73. Search in Google Scholar

Oraby N.H., Hassan A.A., Mansour M.K., Arafa M.M., Ibrahim E., Talkhan O.F. (2022). Protective and detoxificating effects of selenium nanoparticles and thyme extract on the aflatoxin B1 in rabbits. Egyptian J. Agri. Res., 100: 284–293. Search in Google Scholar

Prabu P.C., Dwivedi P., Sharma A.K. (2013). Toxicopathological studies on the effects of aflatoxin B₁, ochratoxin A and their interaction in New Zealand White rabbits. Exp. Toxicol. Pathol., 65: 277–286. Search in Google Scholar

Ragab T.I.M., El Gendy A.N.G., Saleh I.A., Esawy M.A. (2019). Chemical composition and evaluation of antimicrobial activity of the Origanum majorana essential oil extracted by microwave-assisted extraction, conventional hydro-distillation and steam distillation. J. Essent. Oil Bearing Plants, 22: 563–573. Search in Google Scholar

Reda F.M., Ismail I.E., El-Mekkawy M.M., Farag M.R., Mahmoud H.K., Alagawany M. (2020). Dietary supplementation of potassium sorbate, hydrated sodium calcium aluminosilicate and methio-nine enhances growth, antioxidant status and immunity in growing rabbits exposed to aflatoxin B1 in the diet. J. Anim. Physiol. Anim. Nutr. (Berl), 104: 196–203. Search in Google Scholar

Reyneri A. (2006). The role of climatic condition on micotoxin production in cereal. Vet. Res. Comm., 30: 87–92. Search in Google Scholar

Richard J.L. (2007). Some major mycotoxins and their mycotoxicoses – an overview. Int. J. Food Microbiol., 119: 3–10. Search in Google Scholar

Salem M.H., Kamel K.I., Yousef M.I., Hassan G.A., El-Nouty F.D. (2001). Protective role of ascorbic acid to enhance semen quality of rabbits treated with sublethal doses of aflatoxin B₁. Toxicology, 162: 209–218. Search in Google Scholar

Scheubert K., Hufsky F., Böcker S. (2013). Computational mass spec-trometry for small molecules. J. Cheminform., 5: 12. Search in Google Scholar

Seleem T.S.T., Ibrahim H., Ali A.M., Abd-Elmotaal A.M., Zeidan A.E.B. (2007). Rabbit performance as affected by Origanum majorana in diets. Proc. 5th Int. Conf. Rabbit Production in Hot Climates, Hurghada, Egypt, pp. 495–508. Search in Google Scholar

Shabani A., Dastar B., Khomeiri M., Shabanpour B., Hassani S. (2010). Response of broiler chickens to different levels of nanozeolite during experimental aflatoxicosis. J. Biol. Sci., 10: 362–367. Search in Google Scholar

Shen H.M., Ong C.N., Shi C.Y. (1995). Involvement of reactive oxygen species in aflatoxin B1-induced cell injury in cultured rat hepatocytes. Toxicology, 99: 115–123. Search in Google Scholar

Tinelli A., Passantino G., Perillo A., Zizzo N. (2019). Anatomo-pathological consequences of mycotoxins contamination in rabbits feed. Iranian J. Appl. Anim. Sci., 9: 379–387. Search in Google Scholar

Udomkun P., Mutegi C., Wossen T., Atehnkeng J., Nabahungu N.L., Njukwe E., Vanlauwe B., Bandyopadhyay R. (2018). Occurrence of aflatoxin in agricultural produce from local markets in Burundi and Eastern Democratic Republic of Congo. Food Sci. Nutr., 6: 2227–2238. Search in Google Scholar

Zain M.E. (2011). Impact of mycotoxins on humans and animals. J. Saudi Chem. Soc., 15: 129–144. Search in Google Scholar

Zhang Z., Xu J., Zhang X., Wang J., Xie H., Sun Y., Zhang Q., Chang Z., Liu Y. (2022). Protective effect of SeMet on liver injury induced by ochratoxin A in rabbits. Toxins, 14: 628. Search in Google Scholar