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N-acetyl-β-D-glucosaminidase (NAGase) levels in bulk herd milk

Published online by Cambridge University Press:  01 June 2009

Barry J. Kitchen ,
Gordon Middleton ,
W. Seng Kwee  and
R. Jeffrey Andrews
Barry J. Kitchen
Affiliation:
Otto Madsen Dairy Research Laboratory, Department of Primary Industries, Hamilton, Brisbane 4007, Australia
Gordon Middleton
Affiliation:
Otto Madsen Dairy Research Laboratory, Department of Primary Industries, Hamilton, Brisbane 4007, Australia
W. Seng Kwee
Affiliation:
Otto Madsen Dairy Research Laboratory, Department of Primary Industries, Hamilton, Brisbane 4007, Australia
R. Jeffrey Andrews
Affiliation:
Dairy Field Services Branch, Department of Primary Industries, Wacol, Brisbane 4076, Australia
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Summary

N-acetyl-β-D-glucosaminidase (NAGase) levels and somatic cell counts (SCC) were determined monthly for 6 months in the bulk milk of 181 suppliers (1063 samples). A highly significant correlation (r = 0·74; P < 0·001) was found between supplier's bulk herd milk geometric mean NAGase activity and SCC. Monthly trends which grouped suppliers into various categories defined by different NAGase and SCC thresholds showed that a similar overall pattern was obtained with both SCC and NAGase. However, further analysis indicated that 18% of the bulk milk which had SCC < 500 × 103/ml had NAGase levels > 25 units. Also, 34% of samples with SCC > 500 × 103/ml had NAGase levels < 25 units. Overall, 24% of all samples did not have corresponding NAGase and SCC results. When the bulk milk of 2 commercial dairy herds was tested monthly over 12–18 months whilst the infection status of all quarters in the herds was regularly monitored, those herds with low incidence of mastitis (5% quarters infected) had significantly lower bulk milk SCC and NAGase levels than those with a high incidence of mastitis (22% of quarters infected). This suggests that NAGase measurement on bulk herd milk would be a simple means of monitoring infection status of dairy herds and of rapidly classifying a supplier's milk as being of low, medium or high SCC status. The possible combined use of SCC and NAGase levels in bulk milk monitoring schemes is discussed.

Type
Original Articles
Information
Journal of Dairy Research , Volume 51 , Issue 2 , May 1984 , pp. 227 - 232
Copyright
Copyright © Proprietors of Journal of Dairy Research 1984

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References

REFERENCES

Andrews, R. J., Kitchen, B. J., Kwee, W. S. & Duncalfe, F. 1983 Relationship between individual cow somatic cell counts and the mastitis infection status of the udder. Australian Journal of Dairy Technology 38 7174Google Scholar
Bergmann, J. 1979 [Lactose content and cell count in individual cow samples.] Tierzuchler 31 238240Google Scholar
Kitchen, B. J. 1976 Enzymic methods for the estimation of the somatic cell count in bovine milk. I. Development of assay techniques and a study of their usefulness in evaluating the somatic cell content of milk. Journal of Dairy Research 43 251258Google Scholar
Kitchen, B. J., Kwee, W. S., Middleton, G. & Andrews, R. J. 1984 Relationship between the level of N-acetyl-β-D-glucosaminidase (NAGase) in bovine milk and the presence of mastitis pathogens. Journal of Dairy Research 51 1116Google Scholar
Kitchen, B. J. & Middleton, G. 1976 Enzymic methods for the estimation of the somatic cell count in bovine milk. II. N-acetyl-β-D-glucosaminidase test for routine estimation of the somatic cell count in milk. Journal of Dairy Research 43 491494CrossRefGoogle ScholarPubMed
Kitchen, B. J., Middleton, G., Durward, I. G., Andrews, R. J. & Salmon, M. C. 1980 Mastitis diagnostic tests to estimate mammary gland epithelial cell damage. Journal of Dairy Science 63 978983CrossRefGoogle ScholarPubMed
Kitchen, B. J., Middleton, G. & Salmon, M. 1978 Bovine milk N-acetyl-β-D-glucosaminidase and its significance in the detection of abnormal udder secretions. Journal of Dairy Research 45 1520CrossRefGoogle ScholarPubMed
Neave, F. K. 1975 Diagnosis of mastitis by bacteriological methods alone. International Dairy Federation Annual Bulletin Document 85 1936Google Scholar
Renner, E. 1975 Investigations on some parameters of the milk for the detection of subclinical mastitis. International Dairy Federation Annual Bulletin Document 85 5358Google Scholar
Tolle, A., Reichmuth, J. & Heeschen, W. 1976 [Study of several milk characteristics for detection of secretion disturbances.] Archivfür Lebensmittelhygiene 27 7177Google Scholar
Vamling, G. 1977 Methods of testing the quality of producer milk. Nordisk Mejeriindustri 5 279280Google Scholar
Westoarth, D. R. 1975 Interpretation of herd bulk milk cell counts. International Dairy Federation Annual Bulletin Document 85 110115Google Scholar