Hostname: page-component-586b7cd67f-gb8f7 Total loading time: 0 Render date: 2024-11-26T13:31:07.184Z Has data issue: false hasContentIssue false

Nutritional value of yogurt

Published online by Cambridge University Press:  01 June 2009

David Hewitt
Affiliation:
†National Institute for Research in Dairying (University of Reading), Shinfield, Reading RG2 9AT, UK
Helen J. Bancroft
Affiliation:
†National Institute for Research in Dairying (University of Reading), Shinfield, Reading RG2 9AT, UK

Summary

Yogurt, made from fortified skim milk by conventional methods using Streptococcus thermophilus and Lactobacillus bulgaricus, was used in studies of the effect of fermentation on nutritional value of milk. In all experiments, the product was compared with the uninoculated base milk. The concentration of most vitamins was less in yogurt than in milk and was most noticeably so for biotin which was 60% less. The effect on folic acid content was inconsistent. In nutritional experiments with rats, high values for true digestibility, biological value and net protein utilization were obtained for both yogurt and its base milk, only minor differences being apparent between the two materials. In growth tests with rats, yogurt was not found to be consistently superior to the base milk when the milk was subjected to a double heat treatment to reduce bacterial contamination. Yogurt did not confer a nutritional advantage on fresh milk in this respect.

Type
Original Articles
Copyright
Copyright © Proprietors of Journal of Dairy Research 1985

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Alm, L. 1981 The effect of fermentation on the biological value of milk proteins evaluated using rats. A study on Swedish fermented milk products. Journal of the Science of Food and Agriculture 32 12471253.Google Scholar
Alm, L. 1982 Effect of fermentation on B-vitamin content of milk in Sweden. Journal of Dairy Science 65 353359Google Scholar
Broussalian, J. & Westhoff, D. 1983 Influence of lactose concentration of milk and yogurt on growth rate of rats. Journal of Dairy Science 66 438443Google Scholar
Clarke, H. E., Coates, M. E., Eva, J. K., Ford, D. J., Milner, C. K., O'donoghue, P. N., Scott, P. P. & Ward, R. J. 1977 Dietary standards for laboratory animals: report of the Laboratory Animals Centre Diets Advisory Committee. Laboratory Animals 11 128Google Scholar
Deutsch, M. J. & Weeks, C. E. 1965 Microfluorimetric assay for vitamin C. Journal of the Association of Official Agricultural Chemists 48 12481256Google Scholar
Garvie, E. I., Cole, C. B., Fuller, R. & Hewitt, D. 1984 The effect of yoghurt on some components of the gut microflora and on the metabolism of lactose in the rat. Journal of Applied Bacteriology 56 237245CrossRefGoogle Scholar
Hargrove, R. E. & Alford, J. A. 1978 Growth rate and feed efficiency of rats fed yogurt and other fermented milks. Journal of Dairy Science 61 1119Google Scholar
Hargrove, R. E. & Alford, J. A. 1980 Growth response of weanling rats to heated, aged, fractionated, and chemically treated yogurts. Journal of Dairy Science 63 10651072Google Scholar
Henry, K. M., Kon, S. K. & Watson, M. B. 1937 The effect of commercial pasteurisation on the biological value and digestibility of the proteins (nitrogen) of milk. Milk and Nutrition Part 1 pp. 3744. Reading: National Institute for Research in DairyingGoogle Scholar
Hitchins, A. D., Modonough, F. E., Wong, N. P. & Hargrove, R. E. 1983 Biological and biochemical variables affecting the relative values for growth and feed efficiency of rats fed yogurt or milk. Journal of Food Science 48 18361840CrossRefGoogle Scholar
National Research Council 1978 Nutrient requirements of domestic animals. No. 10. Nutrient requirements of laboratory animals 4th ed. Washington, DC: National Research CouncilGoogle Scholar
Rašić, J., Curčić, R., Stojsavljević, T. & Obradović, B. 1971 a A study on the amino acids of yoghurt. III. Amino acids content and biological value of the proteins of yoghurt made from goat's milk. Milchwissenschaft 26 496499Google Scholar
Rašić, J., Stojsavljevtć, T. & Ćurčić, R. 1971 b A study on the amino acids of yoghurt. II. Amino acids content and biological value of the proteins of different kinds of yoghurt. Milchwissenschaft 26 219224Google Scholar
Reddy, K. P., Shahani, K. M. & Kulkarni, S. M. 1976 B–complex vitamins in cultured and acidified yogurt. Journal of Dairy Science 59 191195Google Scholar
Scott, K. J., Bishop, D. R., Zechalko, A., Edwards-Webb, J. D., Jackson, P. A. & Scuffam, D. 1984 Nutrient content of liquid milk. I. Vitamins A, D3, C and of the B complex in pasteurized bulk liquid milk. Journal of Dairy Research 51 3750CrossRefGoogle Scholar
Stojsavljević, T., Rašić, J. & Ćurčić, R. 1971 A study on the amino acids of yoghurt. I. Amino acids content and biological value of the proteins of different kinds of milk. Milchwissenschaft 26 147151Google Scholar
Technicon Instruments Co Ltd 1967 Technicon Methodology Sheet N-36. Basingstoke: Technicon Instruments Co. LtdGoogle Scholar
United States Pharmacopeial Convention 1965 Protein-biological adequacy test. United States Pharmacopeia, 17th edn. 862863Google Scholar
Wong, N. P., Mcdonough, F. E. & Hitchins, A. D. 1983 Contribution of Streptococcus thermophilus to growth-stimulating effect of yogurt on rats. Journal of Dairy Science 66 444449Google Scholar