The influence of feed phosphates on the structural, mechanical and chemicalproperties of bone tissue in pigs

Journal title

Polish Journal of Veterinary Sciences




No 2


Divisions of PAS

Nauki Biologiczne i Rolnicze


Polish Academy of Sciences Committee of Veterinary Sciences ; University of Warmia and Mazury in Olsztyn




DOI: 10.2478/v10181-011-0145-1 ; ISSN 1505-1773


Polish Journal of Veterinary Sciences; 2012; No 2


Ammann P. (2006), Strontium ranelate: a physiological approach for an improved bone quality, Bone, 38, 15, ; An Y. (2000), Mechanical testing of bone and bone-implant interface. ; Ashman R. (1988), Elastic modulus of trabecular bone material, J Biomech, 21, 177, ; Dobrzański Z. (2010), Effect of various feed phosphates on biochemical indices of blood and mineral composition of bones in finishing pigs, Acta Vet Brno, 79, 355, ; Eeckhout W. (1995), An estimation of the minimal P requirements for growing-finishing pigs, as influenced by the Ca level of the diet, Anim Feed Sci Tech, 52, 29, ; Feng L. (2011), Multi-scale characterization of swine femoral cortical bone, J Biomech, 44, 313, ; Hinson R. (2009), Effect of feeding reduced crude protein and phosphorus diets on weaning-finishing pig growth performance, carcass characteristics, and bone characteristics, J Anim Sci, 87, 1502, ; Hoffmann J. (2009), Badanie procesu wytwarzania paszowych fosforanów wapnia z użyciem stężonego kwasu fosforowego, Przem Chem, 5, 450. ; Jackson S. (1978), The morphology of bone minerals crystals, Calcif Tissue Res, 25, 217, ; Jongbloed A. (2000), The effects of microbial phytase, organic acids and their interaction in diets for growing pigs, Liv Prod Sci, 67, 113, ; Korniewicz D. (2012), The effect of various feed phosphates on productivity, slaughter performance and meat quality of fattening pigs, Med Weter. ; Korniewicz D. (2010), Effect of new feed phosphate on balance and apparent absorption of calcium and phosphorus in fattening pigs, Ann Anim Sci, 10, 459. ; Kuropka P. (2006), Bone mineralization, Med Weter, 62, 557. ; Kuryszko J. (2000), Animal Histology. ; Leszczyński P. (2007), Inflammation osteoporosis and corticosteroid-induced osteoporosis - the drugs hierarchy, Reumatologia, 45, 374. ; Marie P. (2006), Strontium ranelate: a physiological approach for optimizing bone formation and resorption, Bone, 38, 10, ; Michalak I. (2011), Using ICP-OES and SEM-EDX in biosorption studies, Mikrochim Acta, 172, 65, ; Mollard R. (2004), Proximal intestinal absorption of calcium is elevated in proportion to growth rate but not bone mass is small for gestational age piglets, J Nutr Biochem, 15, 149, ; Nikodem A. (2004), The influence of choosing chemical methods to bone structures properties, Eng Biomat, 38, 194. ; Nikodem A. (2010), Impact of some external factors on the values of mechanical parameters determined in tests on bone tissue, Acta Bioeng Biomech, 12, 85. ; Nikodem A. (2012), Principles of osteoarthritis - its definition, character, derivation and modality-related recognition, 113. ; Pagano A. (2007), Supplemental Escherichia coli phytase and strontium enhance bone strength of young pigs fed a phosphorus-adequate diet, J Nutr, 137, 1795. ; Peter C. (2001), The effects of phytase on growth performance, carcass characteristics, and bone mineralization of late-finishing pigs fed maize-soyabean meal diets containing no supplemental phosphorus, zinc, copper and manganese, Anim Feed Sci Tech, 94, 199, ; Pointillart A. (1995), Mineral bioavailability and bone mineral contents in pigs given calcium carbonate postprandially, Bone, 17, 357, ; Poulsen H. (2007), Phosphorus availability in feed phosphates determined by regression, Livest Sci, 109, 247, ; Ruan Z. (2007), Dietary requirement of true digestible phosphorus and total calcium for growing pigs, Asian-Aust J Anim Sci, 20, 1236. ; Todoh M. (2004), Relationship between Mechanical Property of Cancellous Bone and Hardness of Trabeculae, JSME Int J C, 47, 1075, ; Tsezos M. (1997), Biosorption sites of selected metals using electron microscopy, Comp Biochem Phys A Phys, 118, 481, ; Turner C. (1993), Basic biomechanical measurements of bone: a tutorial, Bone, 14, 595, ; Uklejewski R. (2006), On the structural-adaptive compatibility of bone with porous coated implants on the base of the traditional one-phase and the modern two-phase poroelastic biomechanical model of bone tissue, Eng Biomat, 54-55, 1. ; Woyengo T. (2008), Nutrient digestibility and performance responses of growing pigs fed phytase and wheat-based diets, J Anim Sci, 86, 848, ; Yamada H. (1973), Strength of biological materials.