Feed additives regulating calcium homeostasis in the bones of poultry – a review

Abdelqader A., Al - Fataftah A.R., Das G. (2013). Effects of dietary Bacillus subtilis and inulin supplementation on performance, eggshell quality, intestinal morphology and microflora composition of laying hens in the late phase of production. Anim. Feed Sci. Tech., 179: 103-111.Search in Google Scholar

Akhavan- Salamat H., Ghasemi H.A., Khaltabadi - Farahani A.H., Kazemi - Bonchenari M. (2011). The effects of Saccharomyces cerevisiae on performance and nutrients digestibility in broilers fed with diet containing different levels of phosphorous. Afr. J. Biotechnol., 10: 7526-7533.Search in Google Scholar

Basu S., Michaelsson K., Olofsson H., Johansson S., Melhus H. (2001). Association between oxidative stress and bone mineral density. Biochem. Biophys. Res. Commun., 288: 275-279.Search in Google Scholar

Booth A., Camacho P. (2013). Acloser look at calcium absorption and the benefits and risks of dietary versus supplemental calcium. Postgrad. Med., 125: 73-81.Search in Google Scholar

Brink E.J., Beynen A.C., Dekker P.R., van Beresteijn E.C., vander Meer R. (1992). Interaction of calcium and phosphate decreases ileal magnesium solubility and apparent magnesium absorption in rats. J. Nutr., 122: 580-586.Search in Google Scholar

Brown E.M. (2007). Clinical lessons from the calcium-sensing receptor. Nat. Clini. Pract. Endoc., 3: 122-133.Search in Google Scholar

Coto C., Yan F., Cerrate S., Wang Z., Sacakli P., Halley J.T., Wiernusz C.J., Martinez A., Waldroup P.W. (2008). Effects of dietary levels of calcium and nonphytate phosphorus in broiler starter diets on live performance, bone development and growth plate conditions in male chicks fedacorn-based diet. Int. J. Poultry Sci., 7: 638-645.Search in Google Scholar

de Sousa V.M.C.,dos Santos E.F., Sgarbieri V.C. (2011). The importance of prebiotics in functional foods and clinical practice. Food Nutri. Sci., 2: 133-144.Search in Google Scholar

Dolder S., Hofstetter W., Wetterwald A., Mühlbauer R. C., Felix R. (2006). Effect of monoterpenes on the formation and activation of osteoclasts in vitro. J. Bone Miner. Res., 21: 647-655.Search in Google Scholar

Dolińska B., Mikulska A., Ryszka F. (2009). Factors enhancing calcium’s absorption. Ann. Acad. Med. Siles., 63: 76-83.Search in Google Scholar

Eisman J.A., Bouillon R. (2014). Vitamin D: direct effects of vitamin Dmetabolites on bone: lessons from genetically modified mice. Bone KEy Reports, 3. doi:10.1038/bonekey.2013.233.Search in Google Scholar

Fleming R.H. (2008). Nutritional factors affecting poultry bone health. P. Nutri. Soc., 67: 177-183.Search in Google Scholar

Garcia A.F.Q.M., Murakami A.E., Duarte C.R.do A., Rojas I.C.O., Picoli K.P., Puzotti M.M. (2013). Use of vitamin D3 and its metabolites in broiler chicken feed on performance, bone parameters and meat quality. Asian-Austral. J. Anim. Sci., 26: 408-415.Search in Google Scholar

Gómez-Verduzco G., Morales-López R., Avila-Gozàlez E. (2013). Use of 25-hydroxycholecalciferol in diets of broiler chickens: effects on growth performance, immunity and bone calcification. J. Poultry Sci., 50: 60-64.Search in Google Scholar

Gutierrez-Fuentes C.G., Zuñiga-Orozco L.A., Vicente J.L., Hernandez-Velasco X., Menconi A., Kuttappan V.A., Kallapura G., Latorre J., Layton S., Hargis B.M., Téllez G. (2013). Effect ofalactic acid bacteria based probiotic Flora Max-B11 on performance, bone qualities, and morphometric analysis of broiler chickens: An economic analysis. Int. J. Poultry Sci., 12: 322-327.Search in Google Scholar

Hacişevkđ A. (2009). An overview of ascorbic acid biochemistry. J. Fac. Pharm. Ankara, 38: 233-255.Search in Google Scholar

Hoenderop J.G., Nilius B., Bindels R.J. (2005). Calcium absorption across epithelia. Physiol. Rev., 85: 373-422.Search in Google Scholar

Holick F.M. (1996). Vitamin Dand bone health. J. Nutr., 126: 1159-1164.Search in Google Scholar

Junqueira O.M., Ferreira Duarte K., Assuena V., da Silva Filardi R.,de Laurentiz A.C., Ferreira Menegucci Praes M.F. (2011). Effect of phytase supplementation on performance, bone densitometry and carcass yield in broilers chicks. Acta Sci. Anim. Sci., 33: 301-307.Search in Google Scholar

Kannan S., Ferreira J.M.F. (2006). Synthesis and thermal stability of hydroxyapatite-β-tricalcium phosphate composites with cosubstituted sodium, magnesium, and fluorine. Chem. Mater., 18: 198-203.Search in Google Scholar

Keshavarz K. (1996). The effect of different levels of vitamin Cand cholecalciferol with adequate or marginal levels of dietary calcium on performance and eggshell quality of laying hens. Poultry Sci., 75: 1227-1235.Search in Google Scholar

Knowles T.G., Kestin S.C., Haslam S.M., Brown S.N., Green L.E., Butterworth A., Nicol C.J. (2008). Leg disorders in broiler chickens: prevalence, risk factors and prevention. PLo S One, 3(2): e1545. doi: 10.1371/journal.pone.0001545Search in Google Scholar

Konca Y., Kirkpinar F., Mert S., Yurtseven S. (2009). Effects of dietary ascorbic acid supplementation on growth performance, carcass, bone quality and blood parameters in broilers during natural summer temperature. Asian J. Anim. Vet. Adv., 4: 139-147.Search in Google Scholar

Kotarbińska M. (1995). Minerals. In: Additives in feedingstuffs for pigs, Kotarbińska M., Grela E. (eds). The Kielanowski Institute of Animal Physiology and Nutrition, Jabłonna, Poland, pp. 23-36.Search in Google Scholar

Kwiecień M. (2013 a). The effect of the level and form of Fe on the quality of femur bones in broiler chicken. Ann. UMCS, Sec. EE, 4: 24-34.Search in Google Scholar

Kwiecień M. (2013 b). Effect of copper glycine chelate on the quality of the tibia bones in broiler chicken. Med. Weter., 69: 492-498.Search in Google Scholar

Kwiecień M., Jaśkiewicz T. (2011). Effect of different amounts of pans and nettle in feed mixtures for chickens on physical, chemical and strength parameters of their bones. Med. Weter., 67: 258-262.Search in Google Scholar

Kwiecień M., Winiarska-Mieczan A. (2007). Effect of herbal addition to feed mixtures on mechanical and chemical parameters of the broiler chicken femoral bone. Polish J. Environ. Stud., 16: 179-184.Search in Google Scholar

Kwiecień M., Winiarska-Mieczan A. (2009). Effect of addition of herbs on body weight and assessment of physical and chemical alternations in the tibia bones of broiler chickens. J. Elementol., 14: 705-715.Search in Google Scholar

Kwiecień M., Makarski B., Zadura A. (2007). Effect of phytase and wheat bran addition to feed mixtures on the resistance parameters and chemical composition of the broiler femoral bones. Pol. J. Environ. Stud., 16: 174-178.Search in Google Scholar

Kwiecień M., Winiarska-Mieczan A., Zawiślak K., Sroka S. (2014). Effect of copper glycinate chelate on biomechanical, morphometric and chemical properties of chicken femur. Ann. Anim. Sci., 14: 127-139.Search in Google Scholar

Laird E., Ward M., McSorley E., Strain J.J., Wallace J. (2010). Vitamin Dand bone health; Potential mechanisms. Nutrients, 2: 693-724.Search in Google Scholar

Lan G.Q., Abdullah N., Jalaludin S., Ho Y.W. (2002). Efficacy of supplementation ofaphytase- producing bacterial culture on the performance and nutrient use of broiler chickens fed cornsoybean meal diets. Poultry Sci., 81: 1522-1532.Search in Google Scholar

Lohakare J.D., Chae B.J., Hahn T.W. (2004). Effects of feeding methods (water vs. feed) of vitamin Con growth performance and carcass characteristics in broiler chickens. Asian-Austral. J. Anim. Sci., 17: 1112-1117.Search in Google Scholar

Lohakare J.D., Ryu M.H., Hahn T.W., Lee J.K., Chae B.J. (2005). Effects of supplemental ascorbic acid on the performance and immunity of commercial broilers. J. Appl. Poultry Res., 14: 10-19.Search in Google Scholar

Martin B.R., Braan M.D., Wigertz K., Bryant R., Zhao Y., Lee W., Kempa-Steczko S., Weaver C.M. (2010). Fructo-oligosaccharides and calcium absorption and retention in adolescent girls. J. Am. Coll. Nutr., 29: 382-386.Search in Google Scholar

Martin - Malo A., Rodriguez M., Martinez M.E., Torres A., Felsenfeld A.J. (1996). The interaction of PTHand dietary phosphorus and calcium on serum calcitriol levels in the rat with experimental renal failure. Nephrol. Dial. Transplant., 11: 1553-1558.Search in Google Scholar

Michalczuk M., Szara T., Bereznowski A., Serwa U., Winkowski M. (2010). Effect of administration of two forms of vitamin Dinafeed mixture on the strength traits of the femur bone of broiler chickens. Rocz. Nauk. PTZ, 6: 77-83.Search in Google Scholar

Mutuş R., Kocabagli N., Alp M., Acar N., Eren M., Gezen Ş. Ş. (2006). The effect of dietary probiotic supplementation on tibial bone characteristics and strength in broilers. Poultry Sci., 85: 1621-1625.Search in Google Scholar

Mühlbauer R. C., Lozano A., Palacio S., Reinli A., Felix R. (2003). Common herbs, essential oils, and monoterpenes potently modulate bone metabolism. Bone, 32: 372-380.Search in Google Scholar

Nascimento G.R., Murakami A.E., Guerra A.F.Q.M., Ospinas-Rojas I.C., Ferreira M.F.Z., Fanhani J.C. (2014). Effect of different vitamin Dsources and calcium levels in the diet of layers in the second laying cycle. Braz. J. Poultry Sci., 16: 37-42.Search in Google Scholar

Nollet L.,van der Klis J.D., Lensing M., Spring P. (2007). The effect of replacing inorganic with organic trace minerals in broiler diets on productive performance and mineral excretion. J. Appl. Poultry Res., 16: 592-597.Search in Google Scholar

Onyango E.M., Bedford M.R., Adeola O. (2004). The yeast production system in which Escherichia coli phytase is expressed may affect growth performance, bone ash, and nutrient use in broiler chicks. Poultry Sci., 83: 421-427.Search in Google Scholar

Pintar J., Bujan M., Homen B., Gazić K., Sikirić M., Černy T. (2005). Effects of supplemental phytase on the mineral content in tibia of broilers fed different cereal based diets. Czech J. Anim. Sci., 50: 68-73.Search in Google Scholar

Powell S., Bidner T.D., Souther L.L. (2011). Phytase supplementation improved growth performance and bone characteristics in broilers fed varying levels of dietary calcium. Poultry Sci., 90: 604-608.Search in Google Scholar

Ptak A., Józefiak D., Kierończyk B., Rawski M., Żyła K., Świątkiewicz S. (2013). Effect of different phytases on the performance, nutrient retention and tibia composition in broiler chickens. Archiv. Tierzucht, 56: 1028-1038.Search in Google Scholar

Rath N.C., Huff G.R., Huff W.E., Balog J.M. (2000). Factors regulating bone maturity and strength in poultry. Poultry Sci., 79: 1024-1032.Search in Google Scholar

Regassa A., Kim W.K. (2014). Effects of age, vitamin D3 and fructooligosaccharide on correlation of different bone parameters in broiler chickens. Int. J. Poultry Sci., 13: 160-167.Search in Google Scholar

Reginatto A.R., Menconi A., Londero A., Lovato M., Pires Rosa A., Shivaramaiah S., Wolfenden A.D., Huff W.E., Huff G.R., Rath N.C., Donoghue A.M., Hargis B.M., Tellez G. (2011). Effects of dietary Aspergillus Meal prebiotic on turkey poults production parameters and bone qualities. Int. J. Poultry Sci., 10: 496-499.Search in Google Scholar

Sacakli P., Koksal B.H., Ergun A., Ozsoy B. (2013). Usage of brewer’s yeast (Saccharomy ces cerevisiae) asareplacement of vitamin and trace mineral premix in broiler diets. Rev. Med. Vet., 164: 39-44.Search in Google Scholar

Saima M.Z., Khan U., Jabbar M.A., Ijaz M., Qadeer M.A. (2009). Efficacy of microbial phytase at different levels on growth performance and mineral availability in broiler chicken. J. Anim. Plant Sci., 19: 58-62.Search in Google Scholar

Saminathan M., Sieo C.C., Kalavathy R., Abdullah N., Ho Y.W. (2011). Effect of prebiotic oligosaccharides on growth of Lactobacillus strains used asaprobiotic for chickens. Afr. J. Microbiol. Res. 5: 57-64.Search in Google Scholar

Scholz - Ahrens K.E., Ade P., Marten B., Weber P., Timm W., Acil Y., Gluer C.C., Schrezenmeir J. (2007). Prebiotics, probiotics, and synbiotics affect mineral absorption, bone mineral content, and bone structure. J. Nutr., 137: 838-846.Search in Google Scholar

Sharma T., Islam N., Ahmad J., Akhtar N., Beg M. (2015). Correlation between bone mineral density and oxidative stress in postmenopausal women. Indian J. Endocr. Metab., 19: 491-497.Search in Google Scholar

Shelton J.L., Southern L.L. (2006). Effects of phytase addition with or withoutatrace mineral premix on growth performance, bone response variables, and tissue mineral concentrations in commercial broilers. J. Appl. Poultry Res., 15: 94-102.Search in Google Scholar

Suzuki T., Hara H. (2004). Various nondigestible saccharides openaparacellular calcium transport pathway with the induction of intracellular calcium signaling in human intestinal Caco-2 cells. J. Nutr., 134: 1935-1941.Search in Google Scholar

Tukaj C. (2008). Adequate level of vitamin Dis essential for maintaining good health. Postep. Hig. Med. Dosw., 62: 502-510.Search in Google Scholar

Vahdatpour T., Ebrahimnezhad Y., Vahdatpour S. (2014). Effects of dietary functional additives on characteristics and minerals of tibia bone and blood parameters of Japanese quails (Coturnix coturnix japonica). Int. J. Plant, Anim. Environ. Sci., 4: 690-695.Search in Google Scholar

Völker L.H., Weiser H. (1993). The relevance of vitamins D3 and Cfor bone metabolism in poultry. In: Maryland Nutrition Conference for Feed Manufactures, Maryland, USA, pp. 42-54.Search in Google Scholar

Wang W., Wang Z., Yang H., Cao Y., Zhu X., Zhao Y. (2013). Effects of phytase supplementation on growth performance, slaughter performance, growth of internal organs and small intestine, and serum biochemical parameters of broilers. Open J. Animal Sci., 3: 236-241.Search in Google Scholar

Watts D.L. (1990). Nutrients interrelationships. Minerals - vitamins - endocrines. J. Orthomol. Med., 5: 11-20.Search in Google Scholar

Xu M., Dick I.M., Day R., Randall D., Prince R. L. (2003). Effects ofaherbal extract on the bone density, strength and markers of bone turnover of mature ovariectomized rats. Am. J. Chin. Med., 31: 87-101.Search in Google Scholar

Yildiz H., Gunes N., Gezen S.S., Ozcan R., Petek M., Yilmaz B., Arican I. (2009). Effects of ascorbic acid and lighting schedule on tibiotarsus strength and bone characteristics in broilers. Archiv. Tierzucht, 52: 432-444.Search in Google Scholar

Younis T.M., El - Shafei A.A., Al - Gamal M.A., El - Sayed A.L. (2013). Effects of commercial probiotics on productive and physiological performance of broiler chickens. J. Appl. Sci. Res., 9: 6643-6654.Search in Google Scholar

Zhou Z.L., Rath N.C., Huff G.R., Huff W.E., Rasaputra K.S., Salas C., Coon C.N. (2011). Bone characteristics of 16 wk-old-turkeys subjected to different dietary supplements and simulated stress. International J. Poultry Sci., 10: 332-337.Search in Google Scholar

Ziaie H., Bashtani M., Karimi Torshizi M.A., Naeeimipour H., Farhangfar H., Zeinali A. (2011). Effect of antibiotic and its alternatives on morphometric characteristics, mineral content and bone strength of tibia in Ross broiler chickens. Glob. Vet., 7: 315-322. Search in Google Scholar