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VetMed Resource

Veterinary information to support practice, based on evidence and continuing education

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Abstract

Knowledge of the incidence of clinical mastitis (CM) and the distribution of pathogens involved is essential for development of prevention and control programs as well as treatment protocols. No country-wide study on the incidence of CM and the distribution of pathogens involved has been conducted...

Author(s)
Gao Jian; Barkema, H. W.; Zhang LiMei; Liu Gang; Deng ZhaoJu; Cai LingJie; Shan RuiXue; Zhang ShiYao; Zou JiaQi; Kastelic, J. P.; Han Bo
Publisher
Elsevier Inc., Philadelphia, USA
Citation
Journal of Dairy Science, 2017, 100, 6, pp 4797-4806
Abstract

Earlier field observations suggest that teat apex colonization by Staphylococcus chromogenes pre-partum in dairy heifers protects udder quarters against elevated somatic cell counts early post-partum. To explain these findings, the in vitro inhibitory capability of S. chromogenes from teat apices...

Author(s)
Vliegher, S. de; Opsomer, G.; Vanrolleghem, A.; Devriese, L. A.; Sampimon, O. C.; Sol, J.; Barkema, H. W.; Haesebrouck, F.; Kruif, A. de
Publisher
Elsevier Science B.V., Amsterdam, Netherlands
Citation
Veterinary Microbiology, 2004, 101, 3, pp 215-221
Abstract

Associations between clinical mastitis (CM) and the proportional distribution of patterns in somatic cell count (SCC) on a herd level were determined in this study. Data on CM and SCC over a 12-month period from 274 Dutch herds were used. The dataset contained parts of 29 719 lactations from 22 955 ...

Author(s)
Haas, Y. de; Barkema, H. W.; Schukken, Y. H.; Veerkamp, R. F.
Publisher
Elsevier, Amsterdam, Netherlands
Citation
Preventive Veterinary Medicine, 2005, 67, 1, pp 55-68
Abstract

Milk losses associated with mastitis can be attributed to either effects of pathogens per se (i.e., direct losses) or effects of the immune response triggered by intramammary infection (indirect losses). The distinction is important in terms of mastitis prevention and treatment. Regardless, the...

Author(s)
Detilleux, J.; Kastelic, J. P.; Barkema, H. W.
Publisher
Elsevier B.V., Amsterdam, Netherlands
Citation
Preventive Veterinary Medicine, 2015, 118, 4, pp 449-456
Abstract

Accurate identification of mastitis pathogens is often compromised when using conventional culture-based methods. Here, we report a novel, rapid assay tested for speciation of bacterial mastitis pathogens using high-resolution melt analysis (HRMA) of 16S rDNA sequences. Real-time PCR amplification...

Author(s)
Praseeda Ajitkumar; Barkema, H. W.; Buck, J. de
Publisher
Elsevier Ltd, Oxford, UK
Citation
Veterinary Microbiology, 2012, 155, 2/4, pp 332-340
Abstract

Mastitis is a common disease also among primiparous dairy cows. Identification of the extent and type of problem is important to initiate correct control measures. In Sweden, unique national production and disease databases are available. The main aim of the study was to investigate the occurrence...

Author(s)
Waller, K. P.; Bengtsson, B.; Lindberg, A.; Nyman, A.; Unnerstad, H. E.
Publisher
Elsevier, Amsterdam, Netherlands
Citation
Veterinary Microbiology, 2009, 134, 1/2, pp 89-94
Abstract

Under Dutch circumstances, most clinical mastitis (CM) cases of cows on dairy farms are treated with a standard intramammary antimicrobial treatment. Several antimicrobial treatments are available for CM, differing in antimicrobial compound, route of application, duration, and cost. Because cow...

Author(s)
Steeneveld, W.; Werven, T. van; Barkema, H. W.; Hogeveen, H.
Publisher
Elsevier Inc., Philadelphia, USA
Citation
Journal of Dairy Science, 2011, 94, 1, pp 174-188
Abstract

Genetic associations were estimated between pathogen-specific cases of clinical mastitis (CM), lactational average somatic cell score (LACSCS), and patterns of peaks in somatic cell count (SCC) which were based on deviations from the typical lactation curve for SCC. The dataset contained test-day...

Author(s)
Haas, Y. de; Barkema, H. W.; Schukken, Y. H.; Veerkamp, R. F.
Publisher
British Society of Animal Science, Penicuik, UK
Citation
Animal Science, 2003, 77, 2, pp 187-195
Abstract

Data from 274 Dutch herds recording clinical mastitis (CM) over an 18-mo period were used to investigate the effect of pathogen-specific CM on the lactation curve for somatic cell count (SCC). Analyzed pathogens were Staphylococcus aureus, coagulase-negative staphylococci, Escherichia coli, ...

Author(s)
Haas, Y. de; Barkema, H. W.; Veerkamp, R. F.
Publisher
American Dairy Science Association, Savoy, USA
Citation
Journal of Dairy Science, 2002, 85, 5, pp 1314-1323
Abstract

No nationwide studies of the incidence rate of clinical mastitis (IRCM) have been conducted in Canada. Because the IRCM and distribution of mastitis-causing bacteria may show substantial geographic variation, the primary objective of this study was to determine regional pathogen-specific IRCM on...

Author(s)
Riekerink, R. G. M. O.; Barkema, H. W.; Kelton, D. F.; Scholl, D. T.
Publisher
American Dairy Science Association, Savoy, USA
Citation
Journal of Dairy Science, 2008, 91, 4, pp 1366-1377

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