Abstract
Clinical and subclinical mastitis affects 30% of cows and is regarded as the most significant economic burden on the dairy farm reducing milk yield and quality and increasing culling rate. A proprietary Acoustic Pulse Therapy (APT) device was developed specifically for treating dairy cows. The APT device was designed to produce deep penetrating acoustic pulses that are distributed over a large treated area at a therapeutic level. This paper presents findings from a clinical assessment of this technology for the treatment of dairy cows with subclinical and clinical mastitis. In subclinical mastitis, a group of 116 cows from 3 herds were identified with subclinical intramammary infection and enrolled in the study; 78 cows were assigned to the treatment group and 38 cows to the control group. Significant differences (P<0.001) were found where 70.5% of the cows in the treatment group returned to normal milk production, compared with only 18.4% of the control group. Daily milk yields of the treated cows increased significantly (P<0.05) and the percentage of cows with log somatic cell count under 5.6 cells/mL was significantly higher (P<0.001). Milk of the infected quarters appeared normal with lactose greater than 4.8%, but this difference was not significant. Of the treated cows with identified bacteria, 52.6% of the quarters were cured, while in the control group only 25.0% (P<0.001). Specifically, all cows identified with Escherichia coli in the treatment group were cured, with 66.6% cured with no intervention in the control. Spontaneous cure of glands infected with coagulase negative staphylococci (CNS) and Streptococci was low while treatment successfully increased the cure of CNS from 13.3% to 53.8% and that of Streptococci from 18.2% to 36.4%. Of the 4 cows identified with Staphylococcus aureus, 3 were cured. The clinical mastitis study group included 29 infected cows that were submitted either to a gold standard antibiotic treatment subgroup of 16 cows (n = 16) or to an APT treatment subgroup of 13 cows (n = 13). A cure of 18.7% was shown for the antibiotic treatment, of which logSCC returned to <5.6 cell/mL and 56.2% were culled. A cure of 76.9% was shown for the APT treatment with only one cow culled (7.7%).
Highlights
Due to economic pressure dairy farmers exert continuous efforts to maximize profitability by constant improvement of genetic selection, nutrition, and herd management
The aim of the present study was to assess the potential of the Acoustic Pulse Therapy (APT) technology to cure clinical and subclinical mastitis in dairy cows by using the designed apparatus
No adverse reactions were observed during the APT sessions, except for slight signs of nervousness at the beginning of every treatment session in reaction to touching during the application of gel on the treated quarter
Summary
Due to economic pressure dairy farmers exert continuous efforts to maximize profitability by constant improvement of genetic selection, nutrition, and herd management. An increase in herd size, to include thousands of cows, led to the development of a concept that cow herd management and health control should be primarily focused on the herd rather than on the individual cow [1]. Computerized data acquisition, which provides on-line information on cows’ milk yield, milk composition and animal health, and opens new options to focus on the individual cow [2]. Mastitis is normally divided into clinical and subclinical infection, both result in decreased milk yield, deterioration in milk quality and increased risk of culling [6,7]. Cows are most susceptible to bacterial infection after drying-off and prior to calving, with symptoms becoming apparent in early lactation [8]
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