Abstract
Chromium (Cr) is an essential mineral element and has been used in pig diets to improve growth performance, insulin sensitivity, immune response and carcase traits and to reduce heat or other stress responses. The aims of thiss study were to determine the impact of nano-sized chromium tripicolinate (nCrPic) on growth performance, feed efficiency and carcase characteristics of finisher gilts during the summer period. A total of 60 finisher Large White x Landrace gilts were stratified on initial weight and then within strata randomly allocated into two treatment groups in three replicates during mid-summer for 28 days. All pigs were housed in individual pens and had ad libitum access to feed and water. Pigs were fed either a control finisher diet (wheat-based diet containing 13.8 MJ digestible energy (DE) per kilogram and 0.56 g available lysine/MJ DE) or a control diet containing 400 ppb Cr as nCrPic. Dietary nCrPic supplementation increased feed intake by 6 % over the entire study (P = 0.05). In particular, dietary nCrPic increased average daily feed intake (ADFI) by 8 % (P = 0.02) during the final 2 weeks of the study. Moreover, dietary nCrPic tended to improve average daily feed (ADFI) over the entire study (P = 0.09). However, there were no significant effects of nCrPic on feed conversion ratio (FCR), final weight, hot standard carcase weight (HCWT), P2 depth or dressing percentage. Plasma cortisol was decreased by 25 % (P = 0.06) by dietary nCrPic supplementation. However, there were no effects of nCrPic on plasma glucose, insulin and nonesterified fatty acids (NEFA), might because of the higher feed intake. In conclusion, this study demonstrates that dietary nCrPic supplementation at 400 ppb can increase feed intake in finisher gilts during mid-summer, suggesting that nCrPic can ameliorate some of the negative effects of heat stress in pigs, possibly via decreased of circulating cortisol.
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References
Achmadi, J., Yanagisawa, T., Sano, H. and Terashima, Y., 1993. Pancreatic insulin secretory response and insulin action in heat-exposed sheep given a concentrate or roughage diet, Domestic Animal Endocrinology, 10, 279-287.
Al-Saiady, M. Y., Al-Shaikh, M. A., Al-Mufarrej, S. I., Al-Showeimi, T. A., Mogawer, H. H. and Dirrar, A., 2004. Effect of chelated chromium supplementation on lactation performance and blood parameters of Holstein cows under heat stress, Animal Feed Science and Technology, 117, 223-233.
Amoikon, E. K., Fernandez, J. M., Southern, L. L., Thompson, D. L., Ward, T. L. Jr. and Olcott, B. M., 1995. Effect of chromium tripicolinate on growth, glucose tolerance, insulin sensitivity, plasma metabolites, and growth hormone in pigs, Journal of Animal Science, 73, 1123-1130.
Anderson, R. A., Bryden, N. A. and Polansky, M. M., 1985. Serum chromium of human subjects: effects of chromium supplementation and glucose, The American journal of clinical nutrition, 41, 571-577.
Armstrong, D. V., 1994. Heat Stress Interaction with Shade and Cooling, Journal of Dairy Science, 77, 2044-2050.
de Bragança, M. M. and Prunier, A., 1999. Effects of low feed intake and hot environment on plasma profiles of glucose, nonesterified fatty acids, insulin, glucagon, and IGF-I in lactating sows, Domestic Animal Endocrinology, 16, 89-101.
Denbow, C. J., Perera, K. S., Gwazdauskas, F. C., Akers, R. M., Pearson, R. E. and McGilliard, M. L., 1986. Effect of Season and Stage of Lactation on Plasma Insulin and Glucose Following Glucose Injection in Holstein Cattle, Journal of Dairy Science, 69, 211-216.
DiGiacomo, K., Leury, B. J. and Dunshea, F. R., 2014. Possible metabolic causes of heat shortening in cattle and potential strategies base on these mechanisms, Animal Production Science, 54, 430-443.
Dunshea, F. R., Leury, B. J., Fahri, F., DiGiacomo, K., Hung, A., Chauhan, S., Clarke, I. J., Collier, R., Little, S., Baumgard, L. and Gaughan, J. B., 2013. Amelioration of thermal stress impacts in dairy cows, Animal Production Science, 53, 965-975.
Dunshea, F.R., and M.L. Cox 2008. Effect of dietary protein on body composition and insulin resistance using a pig model of the child and adolescent. Nutrition and Dietetics 65 (Suppl. 3): S60–S65
Evans, G. W. and Bowman, T. D., 1992. Chromium picolinate increases membrane fluidity and rate of insulin internalization, Journal of inorganic biochemistry, 46, 243-250.
Evock-Clover, C. M., Polansky, M. M., Anderson, R. A. and Steele, N. C., 1993. Dietary chromium supplementation with or without somatotropin treatment alters serum hormones and metabolites in growing pigs without affecting growth performance, The Journal of nutrition, 123, 1504-1512.
Forst T, Caduff A, Talary M, Weder M, Brandle M, Kann P, Flacke F, Friedrich C, Pfutzner A 2006. Impact of environmental temperature on skin thickness and microvascular blood flow in subjects with and without diabetes. Diabetes Technology and Therapeutics 8, 94–101.
Giles, L. R., Dettmann, E. B. and Lowe, R. F., 1988. Influence of diurnally fluctuating high temperature on growth and energy retention of growing pigs, Animal production, 47, 467-474.
Godfray, H. C., Crute, I. R., Haddad, L., Lawrence, D., Muir, J. F., Nisbett, N., Pretty, J., Robinson, S., Toulmin, C. and Whiteley, R., 2010. The future of the global food system, Philosophical Transactions of the Royal Society of London, 365, 2769-2777.
Gonzales-Eguia, A. Fu, C. M., Lu, F. Y. and Lien, T. F., 2009. Effects of nanocopper on copper availablity and nutrients digestibility, growth performance and serum traits of piglets. 126:122-129.
Hung, T. Y., Leury, B. J., Lien, T. F., Lu, J. J. and Dunshea, F. R., 2010. Potential of nano-chromium to improve body composition and performance of Pigs. In: Proceeding of the14th AAAP Animal Science Congress, Pingtong, Taiwan. 108-112.
Hung, A. T., Leury, B. J., Sabin, M. A., Lien, T. F. and Dunshea, F. R., 2014. Dietary chromium picolinate of varying particle size improves carcass characteristics and insulin sensitivity in finishing pigs fed low and high fat diet, Animal Production Science, doi:10.1071/AN12255
Itoh, F., Obara, Y., Rose, M. T., Fuse, H. and Hashimoto, H., 1998. Insulin and glucagon secretion in lactating cows during heat exposure, Journal of Animal Science, 76, 2182-2189.
Janzen, W. J., Duncan, C. A. and Riley, L. G., 2012. Cortisol treatment reduces ghrelin signaling and food intake in tilapia, Oreochromis mossambicus. Domestic Animal Endocrinology. 43:251-259.
Katz, A., Nambi, S.S., Mather, K., Baron, A. D., Follmann, D. A., Sullivan, G. and Quon, M. J., 2000. Quantitative insulin sensitivity check index: a simple, accurate method for assessing insulin sensitivity in humans, The Journal of Clinical Endocrinology & Metabolism, 85, 2402-2410.
Kouba, M., Hermier, D. and Le Dividich, J., 2001. Influence of a high ambient temperature on lipid metabolism in the growing pig, Journal of Animal Science, 79, 81-87.
Le Bellego, L., van Milgen, J. and Noblet, J., 2002. Effect of high temperature and low-protein diets on the performance of growing-finishing pigs, Journal of Animal Science, 80, 691-701.
Lien, T. F., Wu, C. P., Wang, B. J., Shiao, M. S. and Lu, J. J., 2001. Effect of supplemental levels of chromium picolinate on the growth performance, serum traits, carcass characteristics and lipid metabolism of growing-finishing pigs, Animal Science, 72, 289-296.
Lien, T. F., Yeh, H. S., Lu, F. Y. and Fu, C. M. 2009. Nanoparticles of chromium picolinate enhance chromium digestibility and absorption. Journal of the Science of Food and Agriculture. 89:1164-1167.
Lindemann, M. D., Wood, C. M., Harper, A. F., Kornegay, E. T. and Anderson, R. A., 1995. Dietary chromium picolinate additions improve gain:feed and carcass characteristics in growing-finishing pigs and increase litter size in reproducing sows, Journal of Animal Science, 73, 457-465.
Marai, I. F. M., El-Darawany, A. A., Fadiel, A. and Abdel-Hafez, M. A. M., 2007. Physiological traits as affected by heat stress in sheep--A review, Small Ruminant Research, 71, 1-12.
Matthews, J. O., Southern, L. L., Fernandez, J. M., Pontif, J. E., Bidner, T. D. and Odgaard, R. L., 2001. Effect of chromium picolinate and chromium propionate on glucose and insulin kinetics of growing barrows and on growth and carcass traits of growing-finishing barrows, Journal of Animal Science, 79, 2172-2178.
Matthews, J. O., Higbie, A. D., Southern, L. L., Coombs, D. F., Bidner, T. D. and Odgaard, R. L., 2003. Effect of chromium propionate and metabolizable energy on growth, carcass traits, and pork quality of growing-finishing pigs, Journal of Animal Science, 81, 191-196.
McDonald, P., Edwards, R. A., Greenhalgh, J. F. D. and Morgan, C. A., 2011. Animal nutrition 7th ed. (Pearson, Harlow).
Mooney, K. W. and Cromwell, G. L., 1995. Effects of dietary chromium picolinate supplementation on growth, carcass characteristics, and accretion rates of carcass tissues in growing-finishing swine, Journal of Animal Science, 73, 3351-3357.
Mooney, K. W. and Cromwell, G. L., 1997. Efficacy of chromium picolinate and chromium chloride as potential carcass modifiers in swine, Journal of Animal Science, 75, 2661-2671.
Nardone, A., Ronchi, B., Lacetera, N., Ranieri, M. S. and Bernabucci, U., 2010. Effects of climate changes on animal production and sustainability of livestock systems, Livestock Science, 130, 57-69.
Ohtsuka Y, Yabunaka N, Watanabe I, Noro H, Fujisawa H, Agishi Y 1995. Thermal stress and diabetic complications. International Journal of Biometeorology 38, 57–59.
Page, T. G., Southern, L. L., Ward, T. L. and Thompson, D. L. Jr., 1993. Effect of chromium picolinate on growth and serum and carcass traits of growing-finishing pigs, Journal of Animal Science, 71, 656-662.
Prunier, A., de Bragança, M. M. and Le Dividich, J., 1997. Influence of high ambient temperature on performance of reproductive sows, Livestock Production Science, 52, 123-133.
Quiniou, N., Dubois, S. and Noblet, J., 2000. Voluntary feed intake and feeding behaviour of group-housed growing pigs are affected by ambient temperature and body weight, Livestock Production Science, 63, 245-253.
Sahin, K., Ozbey, O., Onderci, M., Cikim, G. and Aysondu, M. H., 2002. Chromium Supplementation Can Alleviate Negative Effects of Heat Stress on Egg Production, Egg Quality and Some Serum Metabolites of Laying Japanese Quail, The Journal of nutrition, 132, 1265-1268.
Sahin, K., Sahin, N., Onderci, M., Gursu, F. and Cikim, G., 2002. Optimal dietary concentration of chromium for alleviating the effect of heat stress on growth, carcass qualities, and some serum metabolites of broiler chickens, Bioligical Trace Element Research, 89, 53-64.
Sahin, N., Sahin, K., Onderci, M., Gursu, M. F., Cikim, G., Vijaya, J. and Kucuk, O., 2005. Chromium picolinate, rather than biotin, alleviates performance and metabolic parameters in heat-stressed quail, British Poultry Science, 46, 457-463.
Sales, J. and Jančík, F., 2011. Effects of dietary chromium supplementation on performance, carcass characteristics, and meat quality of growing-finishing swine: A meta-analysis, Journal of Animal Science, 89, 4054-4067.
Samanta, S., Haldar, S. and Ghosh, T. K., 2008. Production and carcase traits in broiler chickens given diets supplemented with inorganic trivalent chromium and an organic acid blend, British Poultry Science, 49, 155-163.
Sevi, A., Rotunno, T., Di Caterina, R. and Muscio, A., 2002. Fatty acid composition of ewe milk as affected by solar radiation and high ambient temperature, Journal of Dairy Research, 69, 181-194.
Shwartz, G., Rhoads, M. L., VanBaale, M. J., Rhoads, R. P. and Baumgard, L. H., 2009. Effects of a supplemental yeast culture on heat-stressed lactating Holstein cows, Journal of Dairy Science, 92, 935-942.
Spencer, J. D., Gaines, A. M., Berg, E. P. and Allee, G. L., 2005. Diet modifications to improve finishing pig growth performance and pork quality attributes during periods of heat stress, Journal of Animal Science, 83, 243-254.
St-Pierre, N. R., Cobanov, B. and Schnitkey, G., 2003. Economic Losses from Heat Stress by US Livestock Industries, Journal of Dairy Science, 86, 52-77.
Verstegen, M. W., Close, W. H., Start, I. B. and Mount, L. E., 1973. The effects of environmental temperature and plane of nutrition on heat loss, energy retention and deposition of protein and fat in groups of growing pigs, British Journal of Nutrition, 30, 21-35.
Wang, M. Q. and Xu, Z. R., 2004. Effect of chromium nanoparticle on growth performance, carcass characteristics, pork quality and tissue chromium in finishing pigs, Asian-Australasian Journal of Animal Sciences, 17, 1118-1122.
Wang, S., Sun, C., Kao, Q. and Yu, C., 2001. Effects of chromium and fish oil on insulin resistance and leptin resistance in obese developing rats, Wei Sheng Yan Jiu, 30, 284-286.
Wang, M. Q., Xu, Z. R., Zha, L. Y. and Lindemannc, M. D., 2007. Effects of chromium nanocomposite supplementation on blood metabolites, endocrine parameters and immune traits in finishing pigs, Animal Feed Science and Technology, 139, 69-80.
Wang, M. Q., He, Y. D., Lindemann, M. D. and Jiang, Z. G., 2009a. Efficacy of Cr (III) supplementation on growth, carcass composition, blood metabolites, and endocrine parameters in finishing pigs, Asian-Australasian Journal of Animal Sciences, 22, 1414-1419.
Wang, M. Q., Xu, Z. R., Li, W. F. and Jiang, Z. G., 2009b. Effect of chromium nanocomposite supplementation on growth hormone pulsatile secretion and mRNA expression in finishing pigs, Journal of Animal Physiology and Animal Nutrition, 93, 520-525.
Warner, R. D., Dunshea, F. R., Gutzke, D., Lau, J. and Kearnry, G., 2014. Factors influencing the incidence of high rigor temperature in beef carcasses in Australia, Animal Production Science, 54, 363-374.
Wheelock, J. B., Rhoads, R. P., VanBaale, M. J., Sanders, S. R. and Baumgard, L. H., 2010. Effects of heat stress on energetic metabolism in lactating Holstein cows, Journal of Dairy Science, 93, 644-655.
Xi, G., Xu, ZR., Wu, S. H. and Chen, S. J., 2001. Effect of chromium picolinate on growth performance, carcass characteristics, serum metabolites and metabolism of lipid in pigs, Asian-Australasian Journal of Animal Sciences, 14, 258-262.
Yari, M., Nikkhah, A., Alikhani, M., Khorvash, M., Rahmani, H. and Ghorbani, G. R., 2010. Physiological calf responses to increased chromium supply in summer, Journal of Dairy Science, 93, 4111-4120.
Zha, L., Zeng, J., Sun, S., Deng, H., Luo, H. and Li, W., 2009. Chromium(III) Nanoparticles Affect Hormone and Immune Responses in Heat-Stressed Rats, Biological Trace Element Research, 129, 157-169.
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Hung, A.T., Leury, B.J., Sabin, M.A. et al. Dietary nano-chromium tripicolinate increases feed intake and decreases plasma cortisol in finisher gilts during summer. Trop Anim Health Prod 46, 1483–1489 (2014). https://doi.org/10.1007/s11250-014-0673-7
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DOI: https://doi.org/10.1007/s11250-014-0673-7