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http://dx.doi.org/10.5713/ajas.2006.1422

Effect of Niacin Supplementation on Growth, Nutrient Utilization and Blood Biochemical Profile in Male Buffalo Calves  

Kumar, Ravindra (Mineral and Vitamin Nutrition Laboratory, Center of Advanced studies in Animal Nutrition Indian Veterinary Research Institute)
Dass, R.S. (Mineral and Vitamin Nutrition Laboratory, Center of Advanced studies in Animal Nutrition Indian Veterinary Research Institute)
Publication Information
Asian-Australasian Journal of Animal Sciences / v.19, no.10, 2006 , pp. 1422-1428 More about this Journal
Abstract
In order to investigate the effect of different levels of niacin supplementation on growth, nutrient utilization, their balance and blood biochemical profile, 15 male buffalo calves (9-10 months of age, $88.4{\pm}4.37kg$ average body weight) were divided into 3 equal groups each of 5 calves, following a completely randomized design, and fed individually for 120 days with wheat straw and concentrate mixture to meet their nutrient requirements. In addition calves were supplemented with 0 ppm (control, group I), 100 ppm (group II) and 200 ppm (group III) niacin. After 90 days of experimental feeding a metabolism trial was conducted to estimate the digestibility of nutrients and their balance. Fortnightly body weights were recorded to assess their growth rate and blood was collected from the jugular vein at day 0 and subsequently at 30-day intervals from all the experimental buffalo calves to study blood biochemical parameters. Results showed that intake and digestibility of dry matter, organic matter, crude protein, ether extract, total carbohydrates, neutral detergent fibre, acid detergent fibre, cellulose and hemicelluloses were statistically similar in the 3 groups. Buffalo calves in all three groups were in positive nitrogen, calcium and phosphorus balance, without showing any significant effect of the treatments. Dry matter, crude protein, digestible crude protein and total digestible nutrient intake ($g/d/kgW^{0.75}$) were similar in the control and niacin supplemented groups. Digestible crude protein (%) and total digestible nutrients (%) in the ration of the 3 groups were 8.07, 7.99, 7.92 and 56.70, 56.63, 56.74, respectively, and were comparable among the groups. The average daily gain (g) in-group II (567.50) was not significantly (p>0.05) higher than group I (500.0) and group III (510.0). Blood biochemical constituents (glucose, total protein, albumin, globulin, urea-N, insulin) showed no significant effect of niacin supplementation. However, serum cholesterol (mg/100 ml) was significantly (p<0.01) lower in the 200 ppm niacin-supplemented group than in the control and 100 ppm niacin-supplemented groups. It can be concluded that supplementation of niacin at 100 and 200 ppm in the diet of buffalo calves had no significant beneficial effect on their growth and nutrient utilization.
Keywords
Buffalo Calves; Niacin; Growth; Nutrient Digestibility; Blood Biochemical Profile;
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1 Chang, X., D. N. Mowat and B. A. Mallard. 1995. Supplemental chromium and niacin for stressed feeder calves. Can. J. Anim. Sci. 75:351-358   DOI
2 Doumas, B. T. 1975. Standards for total serum protein assays-A collaborative study. Clin. Chem. 21:1159-1166
3 Hammond, A. C. 1983. The use of blood urea nitrogen concentration as an indicator of protein status in cattle. Bovine Practitioner 18:114
4 Horton, G. M. J. 1992. Niacin supplementation in diets for growing lambs. Small Rumin. Res. 7:29-34   DOI   ScienceOn
5 Kaneko, J. J. 1980. Clinical Biochemistry of Domestic Animals, 3rd edn. Academic Press, USA
6 Elvehjem, C. A., R. J. Madden, F. M. Strong and D. W. Wollen. 1937. Relation of nicotinic acid and nicotinic acid amide to canine black tongue. J. Am. Chem. Soc. 59:1767-1768
7 SPSS. 1996. Statistical Packages for Social Sciences, version 7.5, SPSS Inc., Illinois, USA
8 Chilliard, Y. and J. F. Ottou. 1995. Duodenal infusion of oil in mid lactation cows. 7. Interaction with niacin on responses to glucose, insulin and $\beta$-agonist challenges. J. Dairy Sci. 78:2452-2463   DOI   ScienceOn
9 Hungate, R. E. 1966. The Rumen and its Microbes. Academic Press, New York
10 Wybenga, D. R., V. J. Pileggi, P. H. Dirstine and J. D. Giorgio. 1970. Direct manual determination of serum total cholesterol with a single stable reagent. Clin. Chem. 16:980-984
11 Horner, J. L., C. E. Coppock, J. R. Moya, J. M. Labore and J. K. Lanham. 1988. Effects of niacin and whole cottonseed on ruminal fermentation, protein degradability and nutrient digestibility. J. Dairy Sci. 71:1239-1247   DOI   ScienceOn
12 Steel, R. G. D. and J. H. Torrie. 1980. Principles and Procedures of Statistics: A Biometrical Approach, 2nd ed. McGraw-Hill international Book Company, New Delhi, India
13 Erickson, P. S., A. M. Trusk and M. R. Murphy. 1989. Effect of niacin source on diet digestibility and plasma free fatty acids and glucose concentrations in epinephrine stimulated lactating dairy cows. J. Dairy Sci. 72(Suppl.1):542-543
14 Ottou, J. F., M. Doreau and Y. Chilliard. 1995. Duodenal infusion of rapeseed oil in mid-lactation cows. 6. Interaction with niacin on dairy cattle performance and nutritional balance. J. Dairy Sci. 78:1345-1352   DOI   ScienceOn
15 Riddell, D. O., E. E. Bartley and A. D. Dayton. 1981. Effect of nicotinic acid on microbial protein synthesis in vitro and on dairy cattle growth and milk production. J. Dairy Sci. 64:782-791   DOI   ScienceOn
16 Shields, D. R., T. W. Perry and D. M. Schaefer. 1981. Niacin supplementation in lamb diets during adaptation to urea. Purdue Agric. Exp. Station. Sheep Day Report, April 11, pp. 7- 10
17 Belibasakis, N. G. and D. Tsirgogianni. 1996. Effect of niacin on milk yield, milk composition and blood components of dairy cows in hot weather. Anim. Feed Sci. Technol. 64:53-59   DOI   ScienceOn
18 Doumas, B. T., W. A. Watson and H. G. Briggs. 1971. Albumin standards and the measurement of serum albumin with bromocresol green. Clin. Chem. Acta 31:87-97   DOI   ScienceOn
19 Erickson, P. S., A. M. Trusk and M. R. Murphy. 1990. Effects of niacin source on epinephrine stimulation of plasma nonesterified fatty acids and glucose concentration on diet digestibility and on rumen protozoal numbers in lactating dairy cows. J. Nutr. 120:1648-1653   DOI
20 Bhandarkar, S. D. and M. A. Pillai. 1992. Radio-immunoassay: A Laboratory Manual, Bhabha Atomic Research Center, Trombay, Bombay, India
21 Waterman, R., J. W. Schwalm and L. H. Schultz. 1972. Nicotinic acid treatment of bovine ketosis. I. Effects of circulatory metabolites and interrelationships. J. Dairy Sci. 55:1447   DOI   ScienceOn
22 El-Barody, M. A. A., H. A. Daghash and Z. B. H. Rabie. 2001. Some physiological responses of pregnant Egyptian buffalo to niacin supplementation. Livestock Prod. Sci. 69:291-296   DOI   ScienceOn
23 Magliocca, F-de-C., A. C. Silverira, L. R. Furlan, M. de-B. Arrigoni and C. Costa. 1994. The effect of niacin and monensin on the performance of young bulls at feed lot. Resquisa-Agropcuaria-Brasileira 29(6):983-988
24 Camacho-Fernandez, E. 1988. Use of niacin as a growth promoter for nursing heifer calves at the Calamanda Cattle Breeding Centre in Quertero. Veterinaria Mexico 19:275
25 Wybenga, D. R., J. D.Giorgio and V. J. Pileggi. 1971. Manual and automated methods for urea-nitrogen measurement in whole serum. Clin. Chem. 17:891
26 Talapatra, S. K., S. N. Ray and K. C. Sen. 1940. The analysis of mineral constituents in biological material. Part I. Estimation of phosphorus, chlorine, calcium, magnesium, sodium and potassium in feedstuffs. Indian J. Vety. Sci. Anim. Husbandry 10:243-258
27 Association of Official Analytical Chemists. 1995. Official Methods of Analysis, 16th ed. Association of Official Analytical chemists, Washington, DC
28 Flachowsky, G. 1993. Niacin in dairy and beef cattle nutrition. Arch. Anim. Nutr. 43(3):195-213   DOI   ScienceOn
29 Jaster, E. H., D. F. Bell and T. A. McPherson. 1983. Nicotinic acid and serum metabolite concentration of lactating dairy cows fed supplemental niacin. J. Dairy Sci. 66:1039-1045   DOI   ScienceOn
30 Dittrich, A., R. Suss, C. Geissler, G. Flachowsky and R. Schubert. 1993. Niacin supplementation in intensive lamb production. Vitamine und weitere Zusatzstoffe bei Mensch und tier: 4 Symposium Jena (Thuringen), pp. 176-181
31 Van Soest, P. J., J. B. Robertson and B. A. Lewis. 1991. Methods of dietary fiber, neutral detergent fiber and non-starch polysaccharides in relation to animal nutrition. J. Dairy Sci. 74:3583-3587   DOI   ScienceOn
32 Erickson, P. S., M. R. Murphy and J. H. Clark. 1992. Supplementation of dairy cows diets with calcium salt of long chain fatty acids and nicotinic acid in early lactation. J. Dairy Sci. 75:1078   DOI   ScienceOn
33 Girard, C. L. 1998. B-Complex vitamins for dairy cows - a new approach. Can. J. Anim. Sci. 78(Suppl.):71-90
34 Henry, R. J. 1963. Standard Methods of Clinical Chemistry, Ist edn. Harper and Row Publishing Company, New York, USA
35 McDowell, L. R. 1989. Vitamins in Animal Nutrition. Academic Press Inc. London, pp. 219-221
36 Campbell, J. M., M. R. Murphy, R. A. Christensen and T. R. Overton. 1994. Kinetics of niacin supplements in lactating dairy cows. J. Dairy Sci. 77:566-575   DOI   ScienceOn
37 Snedecor, G. W. and W. G. Cochran. 1980. Statistical Methods, 7th ed. The Iowa State University Press, Ames, IA, p. 267
38 Daghash, H. A., M. M. Azab and A. H. Etman. 1999. Influence of niacin supplementation on physiological performance of suckling Friesian calves during winter season. Assiut-Vet. Med. J. 41:136-151
39 Kumar, R. and R. S. Dass. 2005. Effect of niacin supplementation on rumen metabolites in Murrah buffaloes (Bubalus bubalis). Asian-Aust. J. Anim. Sci. 18:38-41   DOI
40 Pathak, N. N. and D. N. Verma. 1993. Nutrient Requirements of Buffalo. International Book Distributing Company, Lucknow, India
41 Zinn, R. A., F. N. Owens, R. L. Stuart, J. R. Dunbar and B. B. Norman. 1987. B-vitamin supplementation of diets for feedlot calves. J. Anim. Sci. 65:267-277   DOI