Performance, haemato-biochemical indices and antioxidants status of broiler chickens fed diet with low metabolizable energy supplemented with graded levels of Guanidino Acetic Acid (GAA)
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Adedokun, S. A., and Olojede, O. C. (2019). Optimizing gastrointestinal integrity in poultry: the role of nutrients and feed additives.Frontiers in Veterinary Science, 5: 348-349.Search in Google Scholar
Adegbenro, M., Agbede, J. O., Onibi, G. E., and Aletor, V. A. (2016). Composite leaf meal: effects on haematology and biochemical indices of growing pigs. ArchivaZootechnica, 19(2).Search in Google Scholar
Agbede, J. O., Arimah, A. A., Adu, O. A., Olaleye, M. T., and Aletor, V. A. (2011). Growth-enhancing, health impact and bacteria suppressive property of lanthanum supplementation in broiler chicken. ArchivaZootechnica, 14(2), 44-48.Search in Google Scholar
Ahiwe, E. U., Omede, A. A., Abdallh, M. B., and Iji, P. A. (2018). Managing dietary energy intake by broiler chickens to reduce production costs and improve product quality. Animal husbandry and nutrition, 115, 145.Search in Google Scholar
Akinbode, OM., Eludoyin, AO., and Fashae OA. (2008). Temperature and relative humidity distributions in a medium-size administrative town in Southwest Nigeria Environ Manage. 87 (1); 95–105.Search in Google Scholar
Amiri, M., Ghasemi, H.A., Hajkhodadadi, I., and Khaltabadi Farahani, A.H. (2019). Efficacy of guanidinoacetic acid at different dietary crude protein levels on growth performance, stress indicators, antioxidant status, and intestinal morphology in broiler chickens subjected to cyclic heat stress. Anim. Feed Sci. Technology, 254, 114208.Search in Google Scholar
Baker, D. H. 2009. Advances in protein-amino acid nutrition of poultry.Amino Acids, 37: 29–41.Search in Google Scholar
Boney, J.W., Patterson, P.H., and Solis, F. (2020). The effect of dietary inclusions of guanidinoacetic acid on D1-42 broiler performance and processing yields. J. Appl. Poult. Res, 29: 220–228.Search in Google Scholar
Çenesiz, A.A., Yava ̧s,İ., Çiftci,İ., Ceylan, N., and Ta ̧skesen, H.O. (2020). Guanidinoacetic acid supplementation is favourable to broiler diets even containing poultry by-product meal. Br. Poult. Sci, 61: 311–319.Search in Google Scholar
Córdova-Noboa, H.A.; Oviedo-Rondón, E.O.; Sarsour, A.H.; Barnes, J.; Ferzola, P.; Rademacher-Heilshorn, M.; and Braun, U. (2018). Performance, meat quality, and pectoral myopathies of broilers fed either corn or sorghum based diets supplemented with guanidinoacetic acid. Poult. Sci, 97: 2479–2493.Search in Google Scholar
Dozier, W.A., Kidd, M.T., and Corzo, A. (2007). Dietary amino acid responses of broiler chickens. J. Appl. Poultry Res. 17:157-167.Search in Google Scholar
Dringen, R., Pawlowski, P. G., and Hirrlinger, J. (2005). Peroxide detoxification by brain cells. Journal of neuroscience research, 79: 157-165.Search in Google Scholar
Hanganu, A., Bedetti, C., Degroot, C., Mejia-Constain, B., Lafontaine, A. L., Soland, V., and Monchi, O. (2014). Mild cognitive impairment is linked with faster rate of cortical thinning in patients with Parkinson’s disease longitudinally. Brain, 137: 1120-1129.Search in Google Scholar
Hiramatsu, M. (2003). A role for guanidino compounds in the brain. Mol Cell Biochem. 244:57–62.Search in Google Scholar
Jurkovitz, C. T., Abramson, J. L., Vaccarino, L. V., Weintraub, W. S., & McClellan, W. M. (2003). Association of high serum creatinine and anemia increases the risk of coronary events: results from the prospective community-based atherosclerosis risk in communities (ARIC) study. Journal of the American Society of Nephrology, 14(11), 2919-2925.Search in Google Scholar
Khalil, S., Al-Sagan, A.A., Abdellatif, H.A., Prince, A., and El-Banna, R. (2021). Effects of guanidinoacetic acid supplementation on zootechnical performance and some biometric indices in broilers challenged with T 3 -Hormone. Ital. J. Anim. Sci. 2021, 20, 611–622.Search in Google Scholar
Khan, T. A., and Zafar, F. (2005).Haematological study in response to varying doses of estrogen in broiler chicken.International Journal of Poultry Science, 4(10), 748-751.Search in Google Scholar
Lemme, A., Ringel, J., Rostagno, H.S., and Redshaw, M.S. (2007a). Supplemental guanidino acetic acid improved feed conversion, weight gain, and breast meat yield in male and female broilers. pp 1-4 in Proc. XVI Eur. Symp.on Poultry Nutrition, Strasbourg, France.Search in Google Scholar
Lemme, A., Ringel, J., Sterk, A., and Young, J.F. (2007b). Supplemental guanidino acetic acid affects energy metabolism of broilers. pp 339-342 in Proc. XVI Eur. Symp.On Poultry Nutrition, Strasbourg, France.Search in Google Scholar
Lui, Z.; G. Wu; M.M. Bryant and D.A. Roland-Sr. (2005). Influence of added synthetic lysin in low-protein diets with the methionine plus cysteine to lysine ratio maintained at 0.75 J.A. Appl. Poult.Res. 14: 174-182.Search in Google Scholar
Mitruka, B. M., and Rawnsley, H. M. (1977). Clinical biochemical and hematological reference values in normal experimental animals. Masson Publishing USA Inc..Search in Google Scholar
Mousavi, S. N., Afsar, A., and Lotfollahian, H. (2013). Effects of guanidinoacetic acid supplementation to broiler diets with varying energy contents. Journal of Applied Poultry Research, 22: 47–54.Search in Google Scholar
Oloruntola, O. D., Agbede, J. O., Ayodele, S. O., and Oloruntola, D. A. (2019). Neem, pawpaw and bamboo leaf meal dietary supplementation in broiler chickens: Effect on performance and health status. Journal of Food Biochemistry, 43(2), e12723.Search in Google Scholar
Onu P.N.; M.C.A. Yo-Enwerm and E.O. Ahaotu (2010). Evaluation of carcass characteristics and costeffectiveness of broiler chicks fed synthetic lysine and methionine supplemented soybean-baseddiets. I.J.S.N. 1: 22-26.Search in Google Scholar
Oyawoye, B. M., and Ogunkunle, H. N. (2004). Biochemical and haematological reference values in normal experimental animals. New York: Mason, 212-216.Search in Google Scholar
Portocarero, N., and Braun, U. (2021). The physiological role of guanidinoacetic acid and its relationship with arginine in broiler chickens.Poult. Sci, 100, 101203.Search in Google Scholar
Ringel, J., Lemme, A., amd Araujo, L.F. (2008). The effect of supplemental guanidine acetic acid in Brazilian type broiler diets at summer conditions. Poultry Sci. 87 (Suppl.1): 154.Sci. 88:205-212Search in Google Scholar
Salem, H. B., and Smith, T. (2008). Feeding strategies to increase small ruminant production in dry environments. Small ruminant research, 77(2-3), 174-194.Search in Google Scholar
Selim, Nessrin A.; Heba H. Habib; Hemat A.Abdel Mageed; Amany H. Waly; A.A. Fadl and S.M.Shalash (2016). Egypt. Poult. Sci. 36: 233-249Search in Google Scholar
Stahl, C.A., Greenwood, M.W., and Berg, E.P., (2003). Growth parameters and carcass quality of broilers fed a corn-soybean diet supplemented with creatine monohydrate. Int. J. Poultry Sci. 2:404-408.Search in Google Scholar
Tallentire, C. W., Leinonen, I., and Kyriazakis, I. (2018). Artificial selection for improved energy efficiency is reaching its limits in broiler chickens. Scientific reports, 8(1), 1-10.Search in Google Scholar
Tossenberger, J., Rademacher, M., Németh, K., Halas, V., and Lemme, A. J. P. S. (2016). Digestibility and metabolism of dietary guanidino acetic acid fed to broilers. Poultry Science, 95(9), 2058-2067.Search in Google Scholar
Vaughn, L., and Beckel, N. (2012). Severe burn injury, burn shock, and smoke inhalation injury in small animals. Part 1: burn classification and pathophysiology. Journal of Veterinary Emergency and Critical Care, 22(2), 179-186.Search in Google Scholar
Wang, Y., Bryant, S. H., Cheng, T., Wang, J., Gindulyte, A., Shoemaker, B. A., ... and Zhang, J. (2017). Pubchem bioassay: 2017 update. Nucleic acids research, 45(D1), D955-D963.Search in Google Scholar
