1. bookVolume 14 (2014): Issue 1 (January 2014)
Journal Details
License
Format
Journal
eISSN
2300-8733
ISSN
1642-3402
First Published
25 Nov 2011
Publication timeframe
4 times per year
Languages
English
access type Open Access

Effect of copper glycinate chelate on biomechanical, morphometric and chemical properties of chicken femur

Published Online: 13 Feb 2014
Volume & Issue: Volume 14 (2014) - Issue 1 (January 2014)
Page range: 127 - 139
Journal Details
License
Format
Journal
eISSN
2300-8733
ISSN
1642-3402
First Published
25 Nov 2011
Publication timeframe
4 times per year
Languages
English
Abstract

The effect of Cu in the form of glycinate chelate, added to chicken feed mixtures, on biomechanical, morphometric and chemical parameters of chicken femur bones was evaluated at 6 weeks of age. Three hundred one-day-old Ross 308 male chicks were divided into 6 groups each in 5 repetitions of 10 chicks. The basal feed mixtures contained: starter 6.1 mg·kg-1 Cu, grower 6.21 mg·kg-1 Cu, finisher 5.91 mg·kg-1 Cu. In the experiment 8, 4 or 2 mg·kg-1 of copper were added to the premix (containing no Cu) in the form of copper sulfate (S-Cu) or as copper glycinate chelate (Gly-Cu). The highest cortical index and maximum elastic strength towards bone weight were observed when S-Cu was added to the mixture at 25% of the requirement. Higher values of the maximum elastic strength were recorded in groups receiving 100% and 50% Gly-Cu compared to the group fed with 100% and 25% S-Cu. In chickens receiving Gly-Cu significantly higher Ix values were recorded in comparison with the group receiving 50% S-Cu. As an alternative to iron sulfate Ross 308 broiler chickens can be fed with Fe in the form of copper glycinate chelate. The use of chelate in the amount limited to 10 or 20 mg·kg-1 did not result in worse physicochemical, strength and morphometric parameters of chicken femurs compared to the recommended dose (40 mg·kg-1).

Keywords

Abdallah A.G., El - Husseiny O.M., Abdel- Latif K.O. (2009). Influence of some dietary organic mineral supplementations on broiler performance. Int. J. Poultry Sci., 8 (3): 291-298.Search in Google Scholar

AOAC (2000). Official Methods of Analysis. Int. 17th ed. AOAC Inter., Gaithersburg, MD, USA.Search in Google Scholar

Arnoldi A. (2001). Thermal processing and food quality: analysis and control. Thermal Technologies in Food Processing. Ed. F. Richardson. Woodhead Publ. Limited, Cambridge, England.10.1201/9781439822999.ch8Search in Google Scholar

Aviagen(2013). Ross 308 broiler: Nutrition specification. http://www.aviagen.com.Search in Google Scholar

Banks K.M., Thompson K.L., Rush J.K., Applegate T.J. (2004). Effects of copper source on phosphorus retention in broiler chicks and laying hens. Poultry Sci., 83: 990-996.Search in Google Scholar

Bao Y.M., Choct M., Iji P.A., Bruerton K. (2007). Effect of organically complexed copper, iron, manganese, and zinc on broiler performance, mineral excretion, and accumulation in tissues. J. Appl. Poultry Res., 16: 448-455.Search in Google Scholar

Bruno L.D.G., Luquetti B.C., Furlanb R.L., Macarib M. (2007). Influence of early qualitative feed restriction and environmental temperature on long bone development of broiler chickens. J. Therm. Biol., 32: 349-354.Search in Google Scholar

Chowdhury S.D., Paik I.K., Namkung H., Lim. H.S. (2004). Responses of broiler chickens to organic copper fed in the form of copper-methionine chelate. Anim. Feed Sci. Technol., 115: 281-293.Search in Google Scholar

Crespo R., Stover S.M., Taylor K.T., Chin R.P., Shivaprasad H.L. (2000). Morphometric and mechanical properties of femora in young adult male turkeys with and without femoral fractures. Poultry Sci., 79 (4): 602-608.Search in Google Scholar

Dibner J.J., Richards J.D., Kitchell M.L., Quiroz M.A. (2007). Metabolic challenges and early bone development. J. Appl. Poultry Res., 16: 126-137.Search in Google Scholar

Dobrzański Z., Korczyński M., Chojnacka K., Górecki H., Opaliński S. (2008). Influence of organic forms of copper, manganese and iron on bioaccumulation of these metals and zinc in laying hens. J. Elementol., 13 (2): 309-319.Search in Google Scholar

Ferket P.R., Oviedo - Rondón E.O., Mente P.L., Bohórquez D.V., Santos A.A. Jr., Grimes J.L., Richards J.D., Dibner J.J., Felts V. (2009). Organic trace minerals and 25-hydroxycholecalciferol affect performance characteristics, leg abnormalities, and biomechanical properties of leg bones of turkeys. Poultry Sci., 88 (1): 118-131.Search in Google Scholar

Ferretti J.L., Capozza R.F., Mondelo N., Montuori E., Zanchetta J.R. (1993 a). Determination of femur structural properties by geometric and material variables asafunction of body weight in rats. Evidence of sexual dimorphism. Bone, 14: 256-270.10.1016/8756-3282(93)90150-9Search in Google Scholar

Ferretti J.L., Capozza R.F., Mondelo N., Montuori E., Zanchetta J.R. (1993 b). Interrelationships between densitometric, geometric and mechanical properties of rat femora: inferences concerning mechanical regulation of bone modeling. J. Bone Miner. Res., 8: 1389-1395.10.1002/jbmr.56500811138266830Search in Google Scholar

Fuchs B., Durosoy S., Guzek J. (2008). Effect of dietary Zn, Fe, Mn and Cu level and source on the productive, biochemical and physiological indices in lactating sows and their offspring. Zesz. Nauk. UP Wrocław, LVII, 567: 39-56.Search in Google Scholar

Fuchs B., Kubizna J., Szuba- Trznadel A. (2009). Feeding of fattening pigs with the concentrate mixtures containing mineral and/or organic forms of Cu, Zn, Mn and Fe. Zesz. Nauk. UP Wrocław, LIX, 575: 87-100.Search in Google Scholar

Gahrke M. (1997). Copper and manganese in the pathogenesis of bone diseases of animals. (in Polish). Med. Weter., 53 (11): 644-646.Search in Google Scholar

Julian R. (2005). Production and growth related disorders and other metabolic diseases of poultry - Areview. Vet. J., 169: 350-369.Search in Google Scholar

Kwiecień M. (2012). The effect of level and form of Cu and Fe in feed on performance and some metabolic indices of broiler chickens (in Polish). Rozpr. Nauk., UP Lublin, 359.Search in Google Scholar

Kwiecień M., Makarski B., Zadura A., Galas D. (2005). The effect of adding copper lysine chelate on mineral composition and strength of tibia in turkeys (in Polish). Acta Sci. Pol. Zootech., 4 (2): 77-84.Search in Google Scholar

Leeson S. (2005). Trace mineral requirements of poultry - validity of the NRCrecommendations. In: Re-defining mineral nutrition, Taylon-Pickard J.A., Tucker L.A. (eds). Nottigham University Press, pp. 107-117. Search in Google Scholar

Mikulski D., Jankowski J., Zduńczyk Z., Wróblewska M., Mikulska M. (2009). Copper balance, bone mineralization and the growth performance of turkeys fed diet with two types of Cu supplements. J. Anim. Feed Sci., 18: 677-688.Search in Google Scholar

Nollet L., Huyghebaert G., Spring P. (2008). Effect of different levels of dietary organic (bioplex) trace minerals on live performance of broiler chickens by growth phases. J. Appl. Poultry Res., 17: 109-115.Search in Google Scholar

Oviedo - Rondón E.O., Ferket P.R., Havenstein G.B. (2006). Nutritional factors that affect leg problems in broilers and turkeys. Avian Poultry Biol. Rev., 17: 89-103.Search in Google Scholar

Rinaldi A.C. (2000). Meeting report - copper research at the top. Biometals, 13: 9-13.Search in Google Scholar

Wang Z., Cerrate S., Coto C., Yan F., Waldroup P.W. (2007). Evaluation of Mintrex® copper asasource of copper in broiler diets. Int. J. Poultry Sci., 6 (5): 308-313.Search in Google Scholar

Yan F., Waldroup P.W. (2006). Evaluation of Mintrex® manganese asasource of manganese for young broilers. Int. J. Poultry Sci., 5: 708-713.Search in Google Scholar

Žilic S.M., Božovic I.N., Savic S., Šobajic S. (2006). Heat processing of soybean kernel and its effect on lysine availability and protein solubility. Central Eur. J. Biol., 1 (4): 572-583. Search in Google Scholar

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