Invited Review Amino Acid Bioavailability and Digestibility in Pig Feed Ingredients

Allen LH. 1982. Calcium bioavailability and absorption: A review. Am J Clin Nutr 35:783–808.

Almeida FN, Stein HH. 2010. Performance and phosphorus balance of pigs fed diets formulated on the basis of values for standardized total tract digestibility of phosphorus. J Anim Sci 88:2968–2977.

Almeida FN, Stein HH. 2012. Effects of graded levels of microbial phytase on the standardized total tract digestibility of phosphorus in corn and corn coproducts fed to pigs. J Anim Sci 90:1262–1269.

Ammerman CB. 1995. Methods for estimation of mineral bioavailability. Bioavailability of Nutrients for Animals: Amino Acids, Minerals, and Vitamins. Ammerman CB, Baker DH, Lewis AJ, editorsAcademic Press; San Diego, California: p. 83–94.

Baker SR. 2011. Aspects of phosphorus nutrition in swine. Masters Thesis. University of Illinois; Urbana, Illinois:

Besançon P, Guéguen L. 1969. Les principales voies du métabolisme calcique chez le porc en croissance. Ann Biol Anim Bioch Biophys 9:537–553.

Bohlke RA, Thaler RC, Stein HH. 2005. Calcium, phosphorus, and amino acid digestibility in low-phytate corn, normal corn, and soybean meal by growing pigs. J Anim Sci 83:2396–2403.

Bouillon R, Van Cromphaut S, Carmeliet G. 2003. Intestinal calcium absorption: Molecular vitamin D mediated mechanism. J Cell Biochem 88:332–339.

Brady SM, Callan JJ, Cowan D, McGrane M, O'Doherty JV. 2002. Effect of phytase inclusion and calcium/phosphorus ratio on the performance and nutrient retention of grower-finisher pigs fed barley/wheat/soya bean meal-based diets. J Sci Food Agric 82:1780–1790.

Bringhurst FR, Leder BZ. 2006. Regulation of calcium and phosphate homeostasis. Endocrinology. 5th EdDeGroot LJ, Jameson JL, editorsElsevier; Philadelphia, Pennsylvania: p. 1465

Bronner F. 1987. Intestinal calcium absorption: Mechanisms and implications. J Nutr 117:1347–1352.

Bronner F. 1998. Calcium absorption- A paradigm for mineral absorption. J Nutr 128:917–920.

Bronner F, Stein WD. 1992. Modulation of bone calcium-binding sites regulates plasma calcium: A hypothesis. Calcif Tissue Int 50:483–489.

Bünzen S, Rostagno HS, Lopes DC, Massakichi FA, Gomes Hashimoto PC, Apolônio LR. 2008. Digestibilidade do fósforo de alimentos de origem vegetal determinada em suínos em crescimento e terminação. R Bras Zootec 37:1236–1242.

Burger EH, Klein-Nulend J, Van Der Plas A, Nijweide PJ. 1995. Function of osteocytes in bone-Their role in mechanotransduction. J Nutr 125:2020S–2023S.

Corradino RA, Ebel JG, Craig PH, Taylor AN, Wasserman RH. 1971. Calcium absorption and the vitamin D₃-dependent calcium-binding protein: 1. Inhibition by dietary Strontium. Calc Tiss Res 7:81–92.

Costanzo LS. 2006. Endocrine physiology. Physiology. 3rd EdSaunders Elsevier; Philadelphia, Pennsylvania: p. 377–439.

Cowieson AJ, Acamovic T, Bedford MR. 2004. The effects of phytase and phytic acid on the losss of endogenous amino acids and minerals from broiler chickens. Br Poult Sci 45:101–108.

Crenshaw TD. 2001. Calcium, phosphorus, vitamin D, and vitamin K in swine nutrition. Swine Nutrition. 2nd EdLewis AJ, Southern LL, editorsCRC Press; Boca Raton, Florida: p. 187–212.

Cromwell GL, Coffey RD, Parker GR, Monegue HJ, Randolph JH. 1995. Efficacy of a recombinant-derived phytase in improving the bioavailability of phosphorus in corn-soybean meal diets for pigs. J Anim Sci 73:2000–2008.

Dilger RN, Adeola O. 2006. Estimation of true phosphorus digestibility and endogenous phosphorus loss in growing pigs fed conventional and low-phytate soybean meals. J Anim Sci 84:627–634.

Ewing W, Charlton SJ. 2007. Calcium. The Minerals Directory. 2nd edContext Products Ltd; Leicestershire, United Kingdom: p. 5a–5f. p. 19a

Fan MZ, Archbold T, Sauer WC, Lackeyram D, Rideout T, Gao Y, de Lange CFM, Hacker RR. 2001. Novel methodology allows simultaneous measurement of true phosphorus digestibility and the gastrointestinal endogenous phosphorus outputs in studies with pigs. J Nutr 131:2388–2396.

Fernández JA. 1995. Calcium and phosphorus metabolism in growing pigs. 2. Simultaneous radio-calcium and radio-phosphorus kinetics. Livest Prod Sci 41:243–254.

Fisher H. 1992. Low-calcium diets enhance phytate-phosphorus availability. Nutr Rev 50:170–171.

Frandson RD, Wilke WL, Fails AD. 2009. Microscopic anatomy and growth and development of bone. Anatomy and Physiology of Farm Animals. 7th EdFrandson RD, Wilke WL, Fails AD, editorsWiley-Blackwell; Ames, Iowa: p. 77–85.

Gillespie JR. 1987. Minerals. Animal Nutrition and Feeding. Bruce MA, Haller C, editorsDelmar Publishers Inc.; Albany, New York: p. 53–75.

González-Vega JC, Walk CL, Liu Y, Stein HH. 2013. Determination of endogenous intestinal losses of Ca and true total tract digestibility of calcium in canola meal fed to growing pigs. J Anim Sci 10.2527/jas.2013-6410

Hansard SL, Crowder HM, Lyke WA. 1957. The biological availability of calcium in feeds for cattle. J Anim Sci 16:437–443.

Hansard SL, Lyke WA, Crowder HM. 1961. Absorption, excretion and utilization of calcium by swine. J Anim Sci 20:292–296.

Heggeness FW. 1959. Effect of antibiotics on the gastrointestinal absorption of calcium and magnesium in the rat. J Nutr 68:573–582.

Helander E, Näsi M, Partanen K. 1996. Effects of supplementary Aspergillus niger phytase on the availability of plant phosphorus, other minerals and nutrients in growing pigs fed on high-pea diets. J Anim Physiol Anim Nutr 76:66–79.

Kellems RO, Church DC. 1998. Nutrients: Their metabolism and feeding standards. Livestock Feeds and Feeding. 4th edKellems RO, Church DC, editorsPrentice-Hall, Inc; Upper Saddle River, New Jersey: p. 16–39.

Kemme PA, Radcliffe JS, Jongbloed AW, Mroz Z. 1997. Factors affecting phosphorus and calcium digestibility in diets for growing-finishing pigs. J Anim Sci 75:2139–2146.

Kerr BJ, Weber TE, Miller PS, Southern LL. 2010. Effect of phytase on apparent total tract digestibility of phosphorus in corn-soybean meal diets fed to finishing pigs. J Anim Sci 88:238–247.

Kil DY, Sauber TE, Jones DB, Stein HH. 2010. Effect of the form of dietary fat and the concentration of dietary neutral detergent fiber on ileal and total tract endogenous losses and apparent and true digestibility of fat by growing pigs. J Anim Sci 88:2959–2967.

Kornegay ET. 1985. Calcium and phosphorus in swine nutrition. Section 3 in NFIA Literature Review on Calcium and Phosphorus in Animal Nutrition. National Feed Ingredients Association; West Des Moines, Iowa: p. 9

Kumar R. 1995. Calcium transport in epithelial cells of the intestine and kidney. J Cell Biochem 57:392–398.

Lantzsch HJ, Wjst S, Drochner W. 1995. The effect of dietary calcium on the efficacy of microbial phytase in rations for growing pigs. J Anim Physiol Anim Nutr 73:19–26.

Lei XG, Ku PK, Miller ER, Yokoyama MT, Ullrey DE. 1994. Calcium level affects the efficacy of supplemental microbial phytase in corn-soybean meal diets of weanling pigs. J Anim Sci 72:139–143.

Li Z, Yi G, Yin J, Sun P, Li D, Knight C. 2008. Effects of organic acids on growth performance, gastrointestinal pH, intestinal microbial populations and immune responses of weaned pigs. Asian-Aust J Anim Sci 21:252–261.

Liu J, Bollinger DW, Ledoux DR, Veum TL. 1998. Lowering the dietary calcium to total phosphorus ratio increases phosphorus utilization in low-phosphorus corn-soybean meal diets supplemented with microbial phytase for growing-finishing pigs. J Anim Sci 76:808–813.

Liu J, Bollinger DW, Ledoux DR, Veum TL. 2000. Effects of dietary calcium:phosphorus ratios on apparent absorption of calcium and phosphorus in the small intestine, cecum, and colon of pigs. J Anim Sci 78:106–109.

Liu S, Li S, Lu L, Xie J, Zhang L, Jiang Y, Luo X. 2012. Development of a procedure to determine standardized mineral availabilities in soybean meal for broiler chicks. Biol Trace Elem Res 148:32–37.

Malde MK, Graff IE, Siljander-Rasi H, Venäläinen E, Julshamn K, Pedersen JI, Valaja J. 2010. Fish bones – a highly available calcium source for growing pigs. J. Anim. Physiol. Anim. Nutr. 94:e66–e76.

Martz FA, Belo AT, Weiss MF, Belyea RL. 1999. True absorption of calcium and phosphorus from corn silage fed to nonlactating, pregnant dairy cows. J Dairy Sci 82:618–622.

Migicovsky BB, Nielson AM, Gluck M, Burgess R. 1951. Penicillin and calcium absorption. Arch Biochem Biophys 34:479–480.

Moore JH, Tyler C. 1955a. Studies on the intestinal absorption and excretion of calcium and phosphorus in the pig. 1. A critical study of the Bergeim technique for investigating the intestinal absorption and excretion of calcium and phosphorus. Br J Nutr 9:63–80.

Moore JH, Tyler C. 1955b. Studies on the intestinal absorption and excretion of calcium and phosphorus in the pig. 2. The intestinal absorption and excretion of radioactive calcium and phosphorus. Br J Nutr 9:81–93.

National Research Council. 1998. Nutrient requirements of swine. 10th EdNational Academy Press; Washington, DC:

National Research Council. 2012. Nutrient requirements of swine. 11th EdNational Academy Press; Washington, DC:

Partridge IG. 1978. Studies on digestion and absorption in the intestines of growing pigs: 3. Net movements of mineral nutrients in the digestive tract. Br J Nutr 39:527–537.

Petersen GI, Stein HH. 2006. Novel procedure for estimating endogenous losses and measurement of apparent and true digestibility of phosphorus by growing pigs. J Anim Sci 84:2126–2132.

Pineda L, Roberts S, Kerr B, Kwakkel R, Verstegen M, Bregendahl K. 2008. Maximum dietary content of corn dried distiller's grains with solubles in diets for laying hens. Effect on nitrogen balance, manure excretion, egg production, and egg quality. Iowa State University 2008 Animal Industry Report. p. R2334

Pointillart A, Fontaine N, Thomasset M, Jay ME. 1985. Phosphorus utilization, intestinal phosphatases and hormonal control of calcium metabolism in pigs fed phytic phosphorus:soyabean or rapeseed diets. Nutr Rep Int 32:155–167.

Poulsen HD, Carlson D, Nørgaard JV, Blaabjerg K. 2010. Phosphorus digestibility is highly influenced by phytase but slightly by calcium in growing pigs. Livest Sci 134:100–102.

Qian H, Kornegay ET, Conner DE. 1996. Adverse effects of wide calcium:phosphorus ratios on supplemental phytase efficacy for weanling pigs fed two dietary phosphorus levels. J Anim Sci 74:1288–1297.

Rojas OJ, Stein HH. 2012. Digestibility of phosphorus by growing pigs of fermented and conventional soybean meal without and with microbial phytase. J Anim Sci 90:1506–1512.

Rojas OJ, Liu Y, Stein HH. 2013. Phosphorus digestibility and concentration of digestible and metabolizable energy in corn, corn coproducts, and bakery meal fed to growing pigs. J Anim Sci 91:5326–5335.

Ross RD, Cromwell GL, Stahly TS. 1984. Effects of source and particle size on the biological availability of calcium in calcium supplements for growing pigs. J Anim Sci 59:125–134.

Rostagno HS, Albino LFT, Donzele JL, Gomes PC, de Oliveira RF, Lopes DC, Ferreira AS, Barreto SLT, Euclides RF. 2011. Brazilian tables for poultry and swine. Rostagno HS, editor3rd ednUniversidade Federal de Viçosa; Viçosa, Brazil:

Sandberg AS, Larsen T, Sandström B. 1993. High dietary calcium level decreases colonic phytate degradation in pigs fed a rapeseed diet. J Nutr 123:559–566.

Sauvant D, Perez J-M, Tran G. 2004. Tables of composition and nutritional value of feed materials. Pigs, Poultry, Cattle, Sheep, Goats, Rabbits, Horses, Fish. Sauvant D, Pérez JM, Tran G, editorsInstitut National de la Recherche Agronomique, Association Française de Zootechnie; Paris, France:

Scholz-Ahrens KE, Ade P, Marten B, Weber P, Timm W, Asil Y, Glüer CC, Schrezenmeir J. 2007. Prebiotics, probiotics, and synbiotics affect mineral absorption, bone mineral content, and bone structure. J Nutr 137:838S–846S.

Selle PH, Cowieson AJ, Ravindran V. 2009. Consequences of calcium interactions with phytate and phytase for poultry and pigs. Livest Sci 124:126–141.

Sherwood L, Klandorf H, Yancey PH. 2013. Endocrine systems. Sherwood L, Klandorf H, Yancey PH, editorsAnimal physiology: From genes to organism. 2nd edBrooks/Cole; Belmont, CA: p. 268–334.

Soares JH. 1995. Calcium bioavailability. Bioavailability of Nutrients for Animals: Amino Acids, Minerals, and Vitamins. Ammerman CB, Baker DH, Lewis AJ, editorsAcademic Press; San Diego, California: p. 95–118.

Stein HH, Adeola O, Cromwell GL, Kim SW, Mahan DC, Miller PS. 2011. Concentration of dietary calcium supplied by calcium carbonate does not affect the apparent total tract digestibility of calcium, but reduces digestibility of phosphorus by growing pigs. J Anim Sci 89:2139–2144.

Stein HH, Boersma MG, Pedersen C. 2006. Apparent and true total tract digestibility of phosphorus in field peas (Pisum sativum L.) by growing pigs. Can J Anim Sci 86:523–525.

Stein HH, Kadzere CT, Kim SW, Miller PS. 2008. Influence of dietary phosphorus concentration on the digestibility of phosphorus in monocalcium phosphate by growing pigs. J Anim Sci 86:1861–1867.

Stein HH, Pedersen C, Wirt AR, Bohlke RA. 2005. Additivity of values for apparent and standardized ileal digestibility of amino acids in mixed diets fed to growing pigs. J Anim Sci 83:2387–2395.

Stein HH, Sève B, Fuller MF, Moughan PJ, de Lange CFM. 2007. Invited review: Amino acid bioavailability and digestibility in pig feed ingredients: Terminology and application. J Anim Sci 85:172–180.

Sulabo RC, Stein HH. 2013. Digestibility of phosphorus and calcium in meat and bone meal fed to growing pigs. J Anim Sci 91:1285–1294.

Taylor JG, Bushinsky DA. 2009. Calcium and phosphorus homeostasis. Blood Purif 27:387–394.

Tryon AF, Bibby BG. 1966. Preliminary studies on pig saliva. Arch Oral Biol 11:527–531.

Veum TL. 2010. Phosphorus and calcium nutrition and metabolism. Phosphorus and calcium utilization and requirements in farm animals. Vitti DMSS, Kebreab E, editorsCAB International; London, United Kingdom: p. 94–111.

Visek WJ, Monroe RA, Swanson EW, Comar CL. 1953. Determination of endogenous fecal calcium in cattle by a simple isotope dilution method. J Nutr 50:23–33.

Vitti DMSS, Da Silva Filho JC. 2010. Isotope dilution technique. Phosphorus and Calcium Utilization and Requirements in Farm Animals. Vitti DMSS, Kebreab E, editorsCAB International; London, United Kingdom: p. 8–17.

Vitti DMSS, Da Silva Filho JC, Louvandini H, Dias RS, Bueno ICS, Kebreab E. 2010. Phosphorus and calcium utilization in ruminants using isotope dilution technique. Phosphorus and Calcium Utilization and Requirements in Farm Animals. Vitti DMSS, Kebreab E, editorsCAB International; London, United Kingdom: p. 45–67.

Wasserman RH, Comar CL, Nold MM. 1956. The influence of amino acids and other organic compounds on the gastrointestinal absorption of calcium and strontium in the rat. J Nutr 59:371–383.

Weaver CM, Martin BR, Ebner JS, Krueger CA. 1987. Oxalic acid decreases calcium absorption in rats. J Nutr 117:1903–1906.

Weaver CM, Martin BR, Story JA, Hutchinson I, Sanders L. 2010. Novel fibers increase bone calcium content and strength beyond efficacy of large intestine fermentation. J Agric Food Chem 58:8952–8957.

Widmer MR, McGinnis LM, Stein HH. 2007. Energy, phosphorus, and amino acid digestibility of high-protein distillers dried grains and corn germ fed to growing pigs. J Anim Sci 85:2994–3003.

Wise A. 1983. Dietary factors determining the biological activities of phytate. Nutr Abstr Rev 53:791–806.

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