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A note on the effect of low levels of biotin in milk substitutes for neonatal pigs

Published online by Cambridge University Press:  02 September 2010

M. J. Newport
M. J. Newport
Affiliation:
National Institute for Research in Dairying, Shinfield, Reading RG2 9AT
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Abstract

Pigs weaned at 2 days of age were given a milk substitute until 28 days of age containing either 10 or 52 fig biotin per kg dry matter. During the last week of the experiment a slight deterioration in the ratio of feed: gain (0·1 > P > 0·05), but not in weight gain, was found in pigs given the low-biotin diet. No signs of biotin deficiency were observed, but pigs given the low-biotin diet had lower concentrations of biotin in the liver and carcass. Most of the biotin was in the liver. These results suggest that 10 fig biotin per kg dry matter may be adequate for pigs until at least 28 days of age.

Type
Research Article
Information
Animal Production , Volume 33 , Issue 3 , December 1981 , pp. 333 - 335
Copyright
Copyright © British Society of Animal Science 1981

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References

REFERENCES

Bowland, J. P. 1966. Swine milk composition–a summary. In Swine in Biomedical Research (ed. Bustad, L. K. and McClellan, R. O.), pp. 97107. Battelle Memorial Institute, Richland, Wash.Google Scholar
Braude, R., Mitchell, K. G., Newport, M. J. and Porter, J. W. G. 1970. Artificial rearing of pigs. 1. Effect of frequency and level of feeding on performance and digestion of milk proteins. Br. J. Nutr. 24: 501516.Google Scholar
Braude, R. and Newport, M. J. 1973. Artificial rearing of pigs. 4. The replacement of butterfat in a whole-milk diet by either beef tallow, coconut oil or soya-bean oil. Br. J. Nutr. 29: 447455.CrossRefGoogle ScholarPubMed
Chapman, Helen R., Ford, J. E., Kon, S. K., Thompson, S. Y., Rowland, S. J., Crossley, E. L. and Rothwell, J. 1957. Further studies of the effect of processing on some vitamins of the B complex in milk. J. Dairy Res. 24: 191197.CrossRefGoogle Scholar
Cunha, T. J., Colby, R. W., Bustad, L. K. and Bone, J. F. 1948. The need for and interrelationship of folic acid, anti- pernicious anemia liver extract, and biotin in the pig. J. Nutr. 36: 215229.CrossRefGoogle ScholarPubMed
Cunha, T. J., Lindley, D. C. and Ensminger, M. E. 1946. Biotin deficiency syndrome in pigs fed dessicated egg white. J. Anim. Sci. 5: 219225.CrossRefGoogle Scholar
Hood, R. L., Johnson, A. R., Fogerty, A. C. and PEARSON, JUDITH A. 1976. Fatty liver and kidney syndrome in chicks. II. Biochemical role of biotin. Aust. J. Biol. Sci. 29:429441.CrossRefGoogle ScholarPubMed
Lehrer, W. P. Jr, Wiese, A. C. and Moore, P. R. 1952. Biotin deficiency in suckling pigs. J. Nutr. 47: 203212.Google Scholar
Lindley, D. C. and Cunha, T. J. 1946. Nutritional significance of inositol and biotin for the pig. J. Nutr. 32: 4759.Google Scholar
Whitehead, C. C. and Bannister, D. W. 1978. Blood pyruvate carboxylase (EC 6.4.1.1) activity as a criterion of biotin status in chickens and turkeys. Br. J. Nutr. 39: 547556.Google Scholar
Whitehead, C. C, Bannister, D. W. and D'MELLO, J. P. F. 1980. Blood pyruvate carboxylase activity as a criterion of biotin status in young pigs. Res. vet. Sci. 29: 126128.CrossRefGoogle ScholarPubMed