Impact of supplemental exogenous lysolecithin on performance, fat digestibility, and lipid metabolites responses in broilers

Faizan Mahmood, Haq Nawaz, Sohail Hassan Khan, Muhammad Yousaf, Javid Iqbal

Abstract


Background: The production and secretion of lipase and bile salt are restricted particularly in young chicks, resulting in a feeble metabolism of lipids as well as oils. Addition of exogenous lysolecithin in the poultry rations may be incorporated as better option to control such constraint.

Methods: In total, 120 day-old Hubbard broiler chickens assigned at random to four nutritional treatments for period of 42d trial. The broilers rations (0-28d and 29-42d) were added with 0, 0.050, 0.075 and 0.10% exogenous emulsifier with1.0% soybean oil. The data relating performance, carcass traits, fat digestibility and blood fat profiles in chickens was obtained during experiment.

Results: During days 1-21 and 1-42, chickens fed diets with high levels (0.075 or 0.100%) of emulsifier with soybean oil resulted significantly (p<0.05) better weight gain and feed: gain ratio than without emulsifier. The broilers on emulsifier diets fed substantially (p<0.05) less feed intake and considerable (p<0.05) decreased feed: gain ratio as compared to without emulsifier at 1-21d. The relative weight of the breast or leg meat yield, and liver significantly (p<0.05) increased in broilers given exogenous emulsifier rations. On day 21 and 42, the digestibility of fat in birds offered with emulsifier diets were substantially (p<0.05) increased than that of control group. Lipid profile was not influenced by exogenous emulsifier supplementation in broiler’s diet.

Conclusion: This study envisaged that exogenous emulsifier supplementation (0.05 to 0.10%) in broiler’s diet improved the performance, meat yield and fat digestibility without affecting on cholesterol profile in broilers.

Keywords: Exogenous Emulsifier; Broiler Performance; Digestibility; Carcass Trait 


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References


Leeson S, Summers JD. Commercial poultry nutrition. 3rd ed. Nottingham Univ. Press, Nottingham, UK, (2005).

Liu X, Yoon SB, Kim IH. Growth performance, nutrient digestibility, blood profiles, excreta microbial counts, meat quality and organ weight on broilers fed with de-oiled lecithin emulsifier. Animals, (2020); 10: 478.

Schiavone A. Cullere M, DeMarco M, Meneguz M, Biasato I, Bergagna S, Dezzutto D, Gai F, Dabbou S, Gasco L, Zotte AD. Partial or total replacement of soybean oil by black soldier fly larvae (Hermetiaillucens L.) fat in broiler diets: Effect on growth performances, feed-choice, blood traits, carcass characteristics and meat quality. Italian Journal of Animal Science, (2017); 16: 93-100.

Khan SH. Recent advances in role of insects as alternative protein source in poultry nutrition. Journal of Applied Animal Research, (2018); 46(1): 1144-1157.

Tancharoenrat P, Ravindran V, Zaefarian F, Ravindran G. Digestion of fat and fatty acids along the gastrointestinal tract of broiler chickens. Poultry Science, (2014); 93: 371-379.

Alhajj MJ, Montero N, Yarce CJ, Salamanca CH. Lecithins from Vegetable, Land, and Marine Animal Sources and Their Potential Applications for Cosmetic, Food, and Pharmaceutical Sectors. Cosmetics, (2020); 7: 87.

Kim WT, Shinde P, Chae BJ. Effect of lecithin with or without chitooligosaccharide on the growth performance, nutrient digestibility, blood metabolites and pork quality of finishing pigs. Canadian Journal Animal Science, (2008); 88: 283-292.

Rovers, M. Saving energy and feed cost with nutritional emulsifier International Poultry Production, (2014); 22: 7-8.

Machudo AR, de Assis LM, Machodo MIR, de-Souza-Soares LA. Importance of lecithin for encapsulation processes. African Journal of Food Sciences, (2014); 8(4): 176-183.

Allahyari-Bake S, Jahanian R. Effects of dietary fat source and supplemental lysophosphatidylcholine on performance, immune responses, and ileal nutrient digestibility in broilers fed corn/soybean meal- or corn/wheat/soybean meal-based diets. Poultry Science, (2017); 96:1149-1158.

Attia YA, El-Hamid AA, De Oliveira MC, Kamel KI, Qota EM, Al-Harthi MA, Sadaka TA. Soya lecithin and season affect the productive performance, nutrient digestibility, and blood constituents of growing rabbits. Journal of Animal Feed Sciences, (2018); 27: 36-43.

An JS, Yun W, Lee JH, Oh HJ, Kim TH, Cho EA, Kim GM, Kim KH, Lee , SD, Cho JH. Effects of exogenous emulsifier supplementation on growth performance, energy digestibility, and meat quality in broilers. Journal of Animal Science and Technology, (2020); 62(1): 43-51.

Abbas MT, Arif M, Saeed M, Reyad-ul-ferdous M, Hassan MA, Arain MA, Rehman A. Emulsifier effect on fat utilization in broiler chicken. Asian Journal of Animal and Veterinary Advances, (2016); 11: 158-167.

Cantor AH, Vargas R, Pescafore AJ, Straw ML, Ford MJ. Influence of crude soybean lecithin as a dietary energy source on growth performance and carcass yield of broilers, Poultry Science, (1997); 76 (Suppl. 1): 109.

FASS. Guide for the care and use of agricultural animals in research and teaching. 3rd ed. Federation of Animal Science Societies Publ., Savoy, IL, USA, (2005).

National Research Council. Nutrients requirements of poultry. 9th revised Ed. National Academy Press, Washington, D.C. USA, (1994).

AOAC. Official Methods of Analytical Chemist. 18th ed. Association of Official Analytical Chemists, Gaithersburg, MD, USA, (2011).

Steel RGD, Torrie JH. Principles and procedures of statistics. Int. Student ed. Tokyo, Japan: McGraw Hill, (1984).

Serpunja S, Kim IH. The effect of sodium stearoyl-2-lactylate (80%) and tween 20 (20%) supplementation in low-energy density diets on growth performance, nutrient digestibility, meat quality, relative organ weight, serum lipid profiles, and excreta microbiota in broilers. Poultry Science, (2018); 98:269-275.

Siyal, FA, El-Hack MEA, Alagawany M, Wang C, Wan X, He J, Wang M, Zhang L, Zhong X, Wang T, Dhama K. Effect of soy lecithin on growth performance, nutrient digestibility and hepatic antioxidant parameters of broiler chickens. International Journal of Pharmacology, (2017); 13: 396-402.

An JS, Yun W, Lee JH, Oh HJ, Kim TH, Cho EA, Kim GM, Kim KH, Lee SD, Cho JH. Effects of exogenous emulsifier supplementation on growth performance, energy digestibility, and meat quality in broilers. Journal of Animal Science and Technology, (2020); 62(1): 43-51.

Wealleans AL, Jansen M, di Benedetto M. The addition of lysolecithin to broiler diets improves growth performance across fat levels and sources: a meta-analysis of

trials. British Poultry Science, (2020); 61(1): 51-56.

Dabbou S, Schiavone A, Gai F, Martinez S, Madrid J, Hernandez F, Marın ALM, Soglia D, Sartore S, Kalmar ID, Gasco L, Nery J. Effect of dietary globin, a natural emulsifier, on the growth performance and digestive efficiency of broiler chickens. Italian Journal of Animal Science, (2019); 18(1): 530-537.

Chauhan S, Priyadarshi A, Gautam B, Saikhlai K. Effect of dietary supplementation of lysophospholipids and phospholipids blend on performance and carcass quality traits of broilers fed energy deficient diet. J Anim Health Behav Sci, (2019); 3:1.

Liu JB, Yan HL, ZhangY, Hu YD, Zhang HF. Effects of dietary energy and protein content and lipid source on growth performance and carcass traits in Pekin ducks. Poultry Science, (2019); 98(10): 4829-4837.

Wickramasuriya SS, Macelline SP, Cho HM, Hong JS, Park SH and Heo JM. Physiological Effects of a Tallow-Incorporated Diet Supplemented With an Emulsifier and Microbial Lipases on Broiler Chickens. Frontiers in Veterinary Science, (2020); 7:583998.

Al-Marzooqi W, Leeson S. Evaluation of dietary supplements of lipase, detergent, and crude porcine pancreas on fat utilization by young broiler chicks. Poultry Science, (1999); 78: 1561-1566.

Cho JH, Zhao PY, Kim IH. Effects of emulsifier and multienzyme in different energy density diet on growth performance, blood profiles, and relative organ weight in broiler chickens. Journal of Agricultural Science, (2012); 4: 161-168.

Azman MA and Ciftci M. Effect of replacing dietary fat with leci- thin on broiler zootechnical performance. Revue de Medecine Veterinaire, (2004); 155: 445-448.

Gheisar MM, Hosseindoust A, Kim HB, Kim IH. Effects of lysolecithin and sodium stearoyl-2-lactylate on growth per- formance and nutrient digestibility in broilers. Korean Journal of Poultry Science, (2015); 42: 133-137.

Huang J, Yang D, Gao S, Wang T. Effects of soy-Lecithin on lipid metabolism and hepatic expression of lipogenic genes in broiler chickens. Livestock Science, (2008); 118: 53-60.

Zhang QQ. Effects of Emulsifier on Nutrients Utilization, Growth Performance, and Meat Quality in Broilers. Masterjs Thesis, Shandong Agricultural University,

Shandong, China, (2010).

Boontiam W, Jung B, Kim YY. Effects of lysophospholipid supplementation to lower nutrient diets on growth performance, intestinal morphology, and blood metabolites in broiler chickens. Poultry Science, (2017); 3(1): 593-601.

Mu K, Kitts DD. Use of soy lecithin to improve nutritional quality of poultry meats and its effect on stability and sensory attributes. Journal of Nutrition and Food Science, (2018); 8: 714.

Nagargoje SB, Dhumal MV, Nikam MG, Khose KK. Effect of crude soy lecithin with or without lipase on performance and carcass traits, meat keeping quality and economics of broiler chicken. International Journal of Livestock Research, (2016); 6: 46-54.

Kamran J, Mehmood S, Mahmud A, Saima. Effect of fat sources and emulsifier levels in broiler diets on performance, nutrient digestibility, and carcass parameters. Brazilian Journal of Poultry Science, (2020); 22(1).

Upadhaya SD, Lee JS, Jung KJ, Kim IH. Influence of emulsifier blends having different hydrophilic lipophilic balance value on growth performance, nutrient digestibility, serum lipid profiles, and meat quality of broilers. Poultry Science 2018;97:255-261.

Guerreiro Neto AC, Pezzato AC, Sartori JR, Mori C, Cruz VC, Fascina VB, Pinheiro DF, Madeira LA and Gonçalvez JC. Emulsifier in broiler diets containing different fat sources. Brazilian Journal of Poultry Science, (2011); 13: 119-125.

Park J-H, Nguyen D-H, Kim I-H. Effects of exogenous lysolecithin emulsifier supplementation on the growth performance, nutrient digestibility, and blood lipid profiles of broiler chickens. Journal of Poultry Science, (2018); 55: 190-194.




DOI: http://dx.doi.org/10.62940/als.v9i1.1111

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