Impact of udder infections on biochemical composition of milk in context of pesticides exposure

Impact of udder infections on biochemical composition of milk in context of pesticides exposure

Environmental contaminants such as pesticides have shown immunomodulatory effects that can make animals highly susceptible to pathogenic invasion. The current work aims to study the incidence of udder infections in a single dairy herd of 160 cows in Qalyoubia Governorate, in relation to the potentia...

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Bibliographic Details
Published in:Veterinary World Vol. 15; no. 3; pp. 797 - 808
Main Authors: Ali, Hala R, Ali, Samah F, Abd-Algawad, Rania H, Sdeek, Fayza A, Arafa, Mahmoud, Kamel, Essam, Shahein, Momtaz A
Format: Journal Article
Language:English
Published: India Veterinary World 01-03-2022
Subjects:
antioxidant bioactivities
mastitis
mycoplasma mastitis
organochlorine pesticide
organochlorine pesticide
antioxidant bioactivities
mastitis
Mycoplasma mastitis
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Summary:Environmental contaminants such as pesticides have shown immunomodulatory effects that can make animals highly susceptible to pathogenic invasion. The current work aims to study the incidence of udder infections in a single dairy herd of 160 cows in Qalyoubia Governorate, in relation to the potential intoxication of dairy cattle with organochlorine (OCs) pesticides. The study also aims to investigate the impact of udder infections on milk composition. The dairy herd was screened for udder infections using the California mastitis test and measurement of somatic cell count (SCC), followed by bacteriological and molecular analysis. In parallel, the milk samples were also tested for residues of 15 OCs compounds using gas chromatographic analysis. The examined herd showed a high prevalence of mastitis (37.5%) and was identified as the main bacterial pathogen. OCs residues were detected in milk of 45 cows out of 160 with a higher incidence in mastitic (43.3%) than in healthy cows (19%). Further, the biochemical analysis of milk showed a significant drop in major electrolytes combined with a significant rise in blood-borne electrolytes (Na and Cl) and total protein. This was more extreme in the case of mastitis compared to non- mastitis. In addition, mastitic milk revealed a high level of malondialdehyde associated with reduced antioxidant enzymes (glutathione peroxidase, superoxide dismutase and catalase), compared to non- mastitis. mastitis was shown to be associated with increased SCC and, in turn, appeared significantly correlated with increased biochemical changes in milk, indicating the serious impact of mastitis on the dairy industry. Our data also show a strong correlation between increased SCC and biochemical changes in milk, suggesting that tested biochemical parameters might serve as potential biomarkers for the early detection of mastitis. The study also suggested a potential relationship between poisoning with OCs and susceptibility to bacterial udder infections. However, further studies are required to examine the immune status of a dairy herd in relation to the level of OCs in cow's blood, as well as the water sources used, grass forage and soil.
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ISSN:0972-8988
2231-0916
DOI:10.14202/vetworld.2022.797-808