Performance and Small Intestine Morphology and Ultrastructure of Male Broilers Injected in Ovo with Bioactive Substances

Ahmad I. (2006). Effect of probiotics on broiler performance. Int. J. Poult. Sci., 5: 593-597.Search in Google Scholar

Aliakbarpour H.R., Chamani M., Rahimi G., Sadeghi A.A., Qujeq D. (2012). The Bacillus subtilis and lactic acid bacteria probiotics influences intestinal mucin gene expression, histomorphology and growth performance in broilers. Asian-Aust. J. Anim. Sci., 25: 1285-1293.Search in Google Scholar

Awad W., Ghareeb K., Böhm J. (2008). Intestinal structure and function of broiler chickens on diets supplemented withasynbiotic containing Enterococccus faecium and oligosaccharides. Int. J. Mol. Sci. 9: 2205-2216.Search in Google Scholar

Awad W.A., Ghareeb K., Abdel- Raheem S., Böhm J. (2009). Effects of dietary inclusion of probiotic and synbiotic on growth performance, organ weights, and intestinal histomorphology of broiler chickens. Poultry Sci., 88: 49-56.Search in Google Scholar

Baurhoo B., Ferket P.R., Zhao X. (2009). Effects of diets containing different concentrations of mannanoligosaccharide or antibiotics on growth performance, intestinal development, cecal and litter microbial populations, and carcass parameters of broilers. Poultry Sci., 88: 2262-2272.Search in Google Scholar

Bednarczyk M., Brzezińska J., Sławińska A., Siwek M., Urbanowski M., Kasperczyk K. (2010). In ovo technology -atool in modern poultry prophylaxis (in Polish). Biotechnologia, 88: 109-118.Search in Google Scholar

Bednarczyk M., Urbanowski M., Gulewicz P., Kasperczyk K., Maiorano G., Szwaczkowski T. (2011). Field and in vitro study on prebiotic effect of raffinose family oligosaccharides in chickens. Bull. Vet. Inst. Puławy, 55: 465-469.Search in Google Scholar

Bednarczyk M., Stadnicka K., Kozłowska I., Abiuso C., Tavaniello S., Dankowiakowska A., Sławińska A., Maiorano G. (2016). Influence of different prebiotics and mode of their administration on broiler chicken performance. Animal, doi:10.1017/S175173111600017Search in Google Scholar

Biernasiak J., Śliżewska K. (2009). The effect ofanew probiotic preparation on the performance and faecal microflora of broiler chickens. Med. Weter., 54: 525-531.Search in Google Scholar

Brzóska F. (2007). Effectiveness of organic acid and synbiotic in broiler chicken feeding (in Polish). Med. Weter., 63: 831-835.Search in Google Scholar

Chiang S.H., Esieh W.M. (1995). Effect of direct-fed microorganisms on broiler growth performance and litter ammonia level. Asian-Aust. J. Anim. Sci., 8: 159-162.Search in Google Scholar

Cox N.A., Bailey J.S., Blankenship L.C., Gildersleeve R.P. (1992). In ovo administration of a competitive exclusion culture treatment to broiler embryos. Poultry Sci., 71: 1781-1784.Search in Google Scholar

Creswell D. (2005). The nutritional requirements of today’s broiler. Asian Poultry Magazin, May, 18-21.Search in Google Scholar

Dankowiakowska A., Kozłowska I., Bednarczyk M. (2013). Probiotics, prebiotics and synbiotics in poultry - mode of action, limitation, and achievements. JCEA, 14: 467-478.Search in Google Scholar

Dean - Nystrom E.A., Samuel J.E. (1994). Age-related resistance to 987Pfimbria-mediated colonization correlates with specific glycolipid receptors in intestinal mucus in swine. Infect. Immun., 62: 4789-4794.Search in Google Scholar

De Oliveira J.E., Vander Hoeven - Hangoor E., Vande Linde I.B., Montijn R.C., Vander Vossen J.M.B.M. (2014). In ovo inoculation of chicken embryos with probiotic bacteria and its effect on posthatch Salmonella susceptibility. Poultry Sci., 93: 818-829.Search in Google Scholar

Dibner J.J., Richards J.D. (2004). The digestive system: challenges and opportunities. J. Appl. Poultry Res., 13: 86-93.Search in Google Scholar

Dono N.D., Sparks N.H., Olukosi O.A. (2014). Association between digesta p H, body weight, and nutrient utilization in chickens of different body weights and at different ages. J. Poultry Sci., 51: 180-184.Search in Google Scholar

Duritis I., Mugurevics A., Mancevica L. (2013). Distribution and characterization of the goblet cells in the ostrich small intestine during the pre- and posthatch period. Vet. Med. Zoot., 63:23-28.Search in Google Scholar

Edens F., Pierce J. (1997). Nutrigenomics: Implications for prebiotics and intestinal health. Proc. Alltech Technical Symposium, Arkansas Nutrition Conference, Rogers.Search in Google Scholar

Ergun A., Yalcin S., Sacakli P. (2000). The usage of probiotic and zinc bacitracin in broiler rations. Ankara Universitesi Veteriner Fakultesi Dergisi, 47: 271-280.Search in Google Scholar

Fisinin V.I., Surai P. (2013). Gut immunity in birds: Facts and reflections. Agric. Biol., 4: 3-25.Search in Google Scholar

Forder R.E.A., Howarth G.S., Tivey D.R., Hughes R.J. (2007). Bacterial modulation of small intestinal goblet cells and mucin composition during early posthatch development of poultry. Poultry Sci., 86: 2396-2403.Search in Google Scholar

Forstner J.F., Forstner G.G. (1994). Gastrointestinal mucus. In: Physiology of the Gastrointestinal Tract, P. Leonard, R. Jonhston (eds). Raven Press, New York, 3rd ed., pp. 1255-1283.Search in Google Scholar

Fritts C.A., Kersey J.H., Motl M.A., Kroger E.C., Yan F., Si J., Jiang Q., Compos M.M., Waldroup A.L., Waldroup P.W. (2000). Bacillus subtilis C-310 (calsporin) improves live performance and microbiological status of broiler chicken. J. Appl. Poultry Sci., 9:149-155.Search in Google Scholar

Geyra A., Uni Z., Sklan D. (2001). The effect of fasting at different ages on growth and tissue dynamics in the small intestine of the young chick. Br. J. Nutr., 86: 53-61.Search in Google Scholar

Houshmand M., Azhar K., Zulkifili I., Bejo M.H., Kamyab A. (2012). Effects of prebiotics, protein level, and stocking density on performance, immunity, and stress indicators of broilers. Poultry Sci., 91: 393-401.Search in Google Scholar

Hu X.F., Guo Y.M., Huang B.Y., Zhang L.B., Bun S., Liu D., Long F.Y., Li J.H., Yang X., Jiao P. (2010). Effect of corticosterone administration on small intestinal weight and expression of small intestinal nutrient transporter m RNAof broiler chickens. Asian-Aust. J. Anim. Sci., 23:175-181.Search in Google Scholar

Jang I.S., Ko Y.H., Yang H.Y., Ha J.S., Kim J.Y., Kang S.Y., Yoo D.H., Nam D.S., Kim D.H., Lee C.Y. (2004). Influence of essential oil components on growth performance and the functional activity of the pancreas and small intestine in broiler chickens. Asian-Aust. J. Anim. Sci., 17: 394-400.Search in Google Scholar

Janocha A., Milczarek A., Osek M., Turyk Z. (2010). Effectiveness of probiotic bacteria and prebiotic in broiler chicken feeding (in Polish). Acta Sci. Pol., Zootech., 9: 21-30.Search in Google Scholar

Jin L.Z., Ho Y.W., Abdullah N., Jalaludin S. (1996). Influence of dried Bacillus subtilis and lactobacilli cultures on intestinal microflora and performance in broilers. Asian-Aust. J. Anim. Sci., 9: 397-404.Search in Google Scholar

Khan R.U., Naz S. (2013). The applications of probiotics in poultry production. World’s Poultry Sci., J., 69: 621-631.Search in Google Scholar

Kornasio R., Halevy O., Kedar O., Uni Z. (2011). Effect of in ovo feeding and its interaction with timing of first feed on glycogen reserves, muscle growth, and body weight. Poultry Sci., 90:1467-1477.Search in Google Scholar

Krawczyk J., Puchała M., Obrzut J. (2012). Hatchability in laying hen flocks under the conservation programme (in Polish). Wiad. Zoot., L, 4: 41-46.Search in Google Scholar

Mack D.R., Michail S., Wei S., Mc Dougall L., Hollingsworth M.A. (1999). Probiotics inhibit enteropathogenic E. coli adherence in vitro by inducing intestinal mucin gene expression. Am. J. Physiol., 276: 941-950.Search in Google Scholar

Maiorano G., Sobolewska A., Cianciullo D., Walasik K., Elminowska - Wenda G., Sławińska A., Tavaniello S., Żylińska J., Bardowski J., Bednarczyk M. (2012). Influence of in ovo prebiotic and synbiotic administration on meat quality of broiler chickens. Poultry Sci., 91: 2963-2969.Search in Google Scholar

Mateos G., Gonzales - Alvarado J.M., Lazaro R. (2004). Facing the realities of poultry health and performance without antibiotics in Europe. Proc. International Feed Industry Symposium, Lexington, USA, pp. 69-79.Search in Google Scholar

Mattar A., Teitelbaum D.H., Drongowski R., Yongy F., Harmon C., Coran A. (2002). Probiotics up-regulate MUC-2 mucin gene expression ina Caco-2 cell-culture model. Pediatr. Surg. Int., 18: 586-590.Search in Google Scholar

Mohan B., Kadrivel R., Natarajan A., Bhaskaran M. (1996). Effect of probiotic supplementation on growth, nitrogen utilization and serum cholesterol in broilers. Br. Poultry Sci., 37:395-401.Search in Google Scholar

Mountzouris K.C., Tsitrsikos P., Palamidi I., Arvaniti A., Mohnl M., Schatzmayr G., Fegeros K. (2010). Effect of probiotic inclusion levels in broiler nutrition on growth performance, nutrient digestibility, plasma immunoglobulins, and cecal microflora composition. Poultry Sci., 89: 58-67.Search in Google Scholar

Nabizadeh A. (2012). The effect of inulin on broiler chicken intestinal microflora, gut morphology, and performance. J. Anim. Feed Sci., 21 : 725-734.Search in Google Scholar

Nowak A., Śliżewska K., Libudzisz Z. (2010). Probiotics - history and mechanisms of their effect (in Polish). Żywność. Nauka. Technologia. Jakość, 4: 5-19.Search in Google Scholar

Noy Y., Sklan D. (1998). Yolk utilization in the newly hatched poult. Brit. Poultry Sci., 39: 446-451.Search in Google Scholar

Ohta Y., Kidd M., Ishibashi T. (2001). Embryo growth and amino acid concentration profiles of broiler breeder eggs, embryos, and chick after in ovo administration of amino acids. Poultry Sci., 80: 1430-1436.Search in Google Scholar

Panda A.K., Rao S.V.R., Reddy M.R., Praharaj N.K. (1999). Effect of dietary inclusion of probiotic on growth, carcass traits and immune response in broilers. Ind. J. Poultry Sci., 34: 343-346.Search in Google Scholar

Panda A.K.,. Reddy M.R., Rao S.V.R., Raju M.V.L.N., Praharaj N.K. (2000). Growth, carcass characteristics, immunocompetences and response to Escherichia coli of broilers fed on diets with various levels of probiotic. Arch. Geflugelkd., 64: 152-156.Search in Google Scholar

Pelicano E., Souza P., Souza H., Figueiro D., Boiago M., Carvalho S., Bordon V. (2005). Intestinal mucosa development in broiler chickens fed natural growth promoters. Braz. J. Poultry Sci., 7: 221-229.Search in Google Scholar

Pilarski R., Bednarczyk M., Lisowski M., Rutkowski A., Bernacki Z., Wardeńska M., Gulewicz K. (2005). Assessment of the effect α-galactosides injected during embryogenesis on selected chicken traits. Folia Biol. (Kraków), 53: 13-20.Search in Google Scholar

Pluske J.R., Thompson M.J., Atwood C.S., Bird P.H., Williams I.H., Hartmann P.E. (1996). Maintenance of villus height and crypt depth, and enhancement of disaccharide digestion and monosaccharide absorption, in piglets fed on cows’ whole milk after weaning. Brit. J. Nutr., 76:409-422.Search in Google Scholar

Pruszyńska- Oszmałek E., Kołodziejski P.A., Stadnicka K., Sassek M., Chałupka D., Kuston B., Nogowski L., Maćkowiak P., Maiorano G., Jankowski J., Bednarczyk M. (2015). In ovo injection of prebiotics and synbiotics affects the digestive potency of the pancreas in growing chickens. Poultry Sci., 94: 1909-1916.Search in Google Scholar

Rahimi S., Grimes J.L., Fletcher O., Oviedo E., Sheldon B.W. (2009). Effect ofadirectfed microbial (Primalac) on structure and ultrastructure of small intestine in turkey poults. Poultry Sci., 88: 491-503.Search in Google Scholar

Runnels P.L., Moon H.W., Schneider R.A. (1980). Development of resistance with host age to adhesion of K99+ Eschericha coli to isolated intestinal epithelial cells. Infect. Immun., 28: 298-300.Search in Google Scholar

Sakamoto K., Hirose H., Onizuka A., Hayashi M., Futamura N., Kawamura Y., Ezaki T. (2000). Quantitative study of changes in intestinal morphology and mucus gel on total parenteral nutrition in rats. J. Surg. Res., 94: 99-106.Search in Google Scholar

Shabani R., Nosrati M., Javandel F., Gothbi A.A.A., Kioumarsi H. (2012). The effect of probiotics on growth performance of broilers. Ann. Biol. Res., 3: 5450-5452.Search in Google Scholar

Shashidhara R.G., Devegowda G. (2003). Effect of dietary oligosaccharide on broiler breeder production traits and immunity. Poultry Sci., 82: 1319-1325.Search in Google Scholar

Sławińska A., Siwek M., Bednarczyk M. (2014 a). Effects of synbiotics injected in ovo regulate immune-related gene expression in adult chickens. AJVR, 75: 997-1003.10.2460/ajvr.75.11.99725350090Search in Google Scholar

Sławińska A., Siwek M., Żylińska J., Bardowski J., Brzezińska J., Gulewicz K., Nowak M., Urbanowski M., Płowiec A., Bednarczyk M. (2014 b). Influence of synbiotics delivered in ovo on the immune organs development and structure. Folia Biol. (Kraków), 62: 277-285.10.3409/fb62_3.27725403081Search in Google Scholar

Smirnov A., Tako E., Ferket P.R., Uni Z. (2006). Mucin gene expression and mucin content in the chicken intestinal goblet cells are affected by in ovo feeding of carbohydrates. Poultry Sci., 85: 669-673.Search in Google Scholar

Swamy M.N., Upendra H A. (2013). Growth performance, crude protein, ether extract and total ash in the breast muscle of broiler chickens supplemented with probiotics. Int. J. Sci. Environ. Technol., 2: 1000-1007.Search in Google Scholar

Śliżewska K., Biernasiak J., Libudzisz Z. (2006). Probiotics as an alternative to antibiotics (in Polish). Zesz. Nauk. Politechniki Łódzkiej. Chem. Spoż. Biotechnol., 984: 79-91.Search in Google Scholar

Świątkiewicz S., Koreleski J. (2007). Feed additives enhancing immune responses in poultry. Med. Weter., 63: 1291-1295.Search in Google Scholar

Tellez G., Higgins S.E,, Donoghue A.M., Hargis B.M. (2006). Digestive physiology and the role of microorganisms. J. Appl. Poultry Res., 15: 136-144.Search in Google Scholar

Uni Z., Noy Y., Sklan D. (1996). Developmental parameters of the small intestine in heavy and light strain chick pre and post-hatch. Brit. Poultry Sci., 36: 63-71.Search in Google Scholar

Uni Z., Ganot S., Sklan D. (1998). Post-hatch development of mucosal function in the broiler small intestines. Poultry Sci., 77: 75-82.Search in Google Scholar

Uni Z., Noy Y., Sklan D. (1999). Posthatch development of small intestinal function in the poult. Poultry Sci., 78: 215-222.Search in Google Scholar

Uni Z., Tako E., Gal- Garber O., Sklan D. (2003 a). Morphological, molecular, and functional changes in the chicken small intestine of the late-term embryo. Poultry Sci., 82: 1747-1754.10.1093/ps/82.11.174714653469Search in Google Scholar

Uni Z., Smirnov A., Sklan D. (2003 b). Pre- and posthatch development of goblet cells in the broiler small intestine: effect of delayed access to feed. Poultry Sci., 82: 320-327.10.1093/ps/82.2.32012619811Search in Google Scholar

Villaluenga C.M., Wardeńska M., Pilarski R., Bednarczyk M., Gulewicz K. (2004). Utilization of the chicken embryo model for assessment of biological activity of different oligosaccharides. Folia Biol. (Kraków), 52: 135-142.Search in Google Scholar

Willems O.W., Miller S.P., Wood B.J. (2013). Aspects of selection for feed efficiency in meat producing poultry. World's Poultry Sci. J., 69: 77-87.Search in Google Scholar

Xiaofei H., Yuming G. (2008). Corticosterone administration after small intestine morphology and function of broiler chickens. Asian-Aust. J. Anim. Sci., 21: 1773-1778.Search in Google Scholar

Xu Z.R., Hu C.H., Xia M.S., Zhan X.A., Wang M.Q. (2003). Effects of dietary fructooligosaccharide on digestive enzyme activities, intestinal microflora and morphology of male broilers. Poultry Sci., 82: 1030-1036.Search in Google Scholar

Yadav G.B., Kadam A.S., Pachpande A.M., Lambate S.B., Lonkar V.D., Maini S., Ravikanth K. (2010). Post hatch histo-morphological studies of small intestinal development in chicks fed with herbal early chick nutritional supplement. Int. J. Poultry Sci., 9: 851-855.Search in Google Scholar

Yamauchi K., Tarachai P. (2000). Change in intestinal villus, cell area and intracellular autophagic vacuoles related to intestinal function in chickens. Br. Poultry Sci., 41: 116-123Search in Google Scholar

Yamauchi K., Incharoen T., Yamauchi K. (2010). The relationship between intestinal histology and function as shown by compensatory enlargement of remnant villi after midgut resection in chickens. Anat. Rec., 293: 2071-2079.Search in Google Scholar

Yang H.M., Wang W., Wang Z.Y., Wang J., Cao Y.J., Chen Y.H. (2013). Comparative study of intestine length, weight and digestibility on different body weight chickens. Afr. J. Biotechnol., 12: 5097-5100.Search in Google Scholar

Yusrizal Y., Chen T.C. (2003). Effect of adding chicory fructans in feed on broiler growth performance, serum cholesterol and intestinal length. Int. J. Poultry Sci., 2: 214-219.Search in Google Scholar

Zavarize K., Sartori J., Gonzales E., Pezzato A. (2012). Morphological changes of the intestinal mucosa of broilers and layers as affected by fasting before sample collection. Braz. J. Poultry Sci., 14: 21-25.Search in Google Scholar

Zhai W., Gerard P.D., Pulikanti R., Peebles E.D. (2011 a). Effects of in ovo injection of carbohydrates on embryonic metabolism, hatchability, and subsequent somatic characteristics of broiler hatchlings. Poultry Sci., 90: 2134-2143.10.3382/ps.2011-0141821933993Search in Google Scholar

Zhai W., Rowe D.E., Peebles E.D. (2011 b). Effects of commercial in ovo injection of carbohydrates on broiler embryogenesis. Poultry Sci., 90: 1295-1301.10.3382/ps.2010-0113021597071Search in Google Scholar