Electrical teat dipping (ETD) is a novel, patented method developed by the authors to control mastitis in dairy cows. Here we evaluate the efficacy of ETD in reducing the incidence of clinical mastitis and bulk tank milk somatic cell count (BTMSCC) on three dairy farms over 6 months. ETD was applied for morning and evening milking on three farms, while conventional teat dipping (CTD) was applied on the other three farms. The number of animals and quarters with clinical mastitis and monthly BTMSCC measurements were recorded. We found that the incidence of clinical mastitis was lower on farms using ETD than those using CTD. However, the BTMSCC did not significantly change throughout the study. Based on these findings, we conclude that ETD effectively reduces mastitis rates on dairy farms.
Despite various control methods, mastitis continues to be a major challenge in the dairy industry. One of the key factors contributing to the persistence of mastitis is the prolonged opening of the teat canal after milking, which can last up to 2 h (Borucki et al., 2012; Kuplulu and Vural, 2016). To address this issue, Risvanli et al. (2022) developed and patented electrical teat dipping (ETD), a device that immediately closes the teat canal after milking.
Although teat dipping has been widely recognized as an effective way to prevent mastitis, many farms still struggle to achieve desired reductions in incidence rates (Kuplulu and Vural, 2016). Moreover, teat dipping can lead to problems such as bacterial resistance and residue development (Borucki et al., 2012). The ETD device, which applies 1.8–3 V and 5.5–7.2 A linear current to an antiseptic solution, offers a safe and effective alternative (Risvanli et al., 2022; Yilmaz et al., 2022).
The objective of this study was to evaluate the impact of ETD on clinical mastitis rates and bulk tank milk somatic cell count (BTMSCC) on dairy farms. By applying ETD during morning and evening milking on three farms, and conventional teat dipping (CTD) on three other farms, we could compare the incidence of clinical mastitis and BTMSCC between the two groups over 6 months.
Evaluation of the results according to the quarters and cows.
ETD: electrical teat dipping, CTD: conventional teat dipping.
Evaluation of bulk tank milk somatic cell counts on farms according to months.
ETD: electrical teat dipping, CTD: conventional teat dipping.
This study was conducted in 2021 on six dairy farms in and around Elazığ, Türkiye, after obtaining approval from the Fırat University Animal Experiments Local Ethics Committee (2019/101).
Three farms were selected for ETD (Turkish patent no. 2021 001883B, PCT-TR2021-36) application, while the other three received CTD for 6 months after each morning and evening milking. Mastitis-related data, including the number of cows and quarters with clinical mastitis and BTMSCC, were recorded monthly for all six farms. The BTMSCC was measured using a DeLaval Cell Counter® (Cell Counter DCC; DeLaval, Sweden) device within an hour of milk sample collection (Safak and Risvanli, 2021). Clinical mastitis was defined as mammary glands with local inflammation symptoms (e.g. redness, pain, and swelling) and abnormal milk (Sharun et al., 2021).
Statistical analysis was performed using the Mann–Whitney
The incidence of clinical mastitis was evaluated for 6 months on all six
farms where the application was performed. The observed mastitis cases were
lower on the three farms using ETD compared to the previous months in both
quarters (first month
Teat dipping is an essential component of mastitis prevention control in
dairy herds. However, despite its effectiveness, it still has some
limitations. In particular, the incidence of mastitis does not decrease to
the desired levels in some herds, and the residual problem remains a major
challenge (Yanuartono et al., 2020). Teat-dipping solutions, such as
chlorinated and iodinated antiseptics, are commonly used in the industry,
with iodine concentrations varying from 0.05 % to 3 % (Boddie et al.,
2000; Kuplulu and Vural, 2016). However, as the iodine concentration
increases, residue problems in milk become more significant. A Canadian
study showed that milk in bulk tanks had an iodine content of 54 to 1902
The ETD device, developed and patented by the authors of the presented study, combines CTD application with the electrical field stimulation technique. The device operates with a voltage between 1.8 and 3 V and a current between 5.5 and 7.2 A. Risvanli et al. (2022) reported that the teat canal closed more quickly after ETD application than after CTD, according to ultrasonographic examinations. In our study, we found that clinical mastitis cases were lower on the farms using ETD than those using CTD. However, the BTMSCC did not differ significantly between the two groups over the 6-month study period. We also observed no adverse effects on the animals during or after the study. Although we could not compare our results with a similar ETD device, our findings suggest that ETD performs better than CTD in reducing mastitis rates, and the linear current applied does not pose a problem regarding animal welfare and ethics. Reinemann (2012) reported that exposure to stray voltage levels of 2 to 4 V is considered a mild stressor to some dairy cows, but it does not contribute to increased somatic cell count or incidence of mastitis, or reduced milk yield. Stray voltage is an alternating current, whereas the current applied in ETD is linear.
In conclusion, based on our results, we conclude that it would be beneficial to expand the use of the device, as we can say that ETD reduces the incidence of mastitis in dairy herds.
The original data of the paper are available from the corresponding author upon reasonable request.
TS: investigation, resources, writing – original draft, review and editing. AR: project administration, investigation, resources, data curation, formal analysis, writing – original draft, review and editing. OY: investigation. BY: investigation. NS: investigation. BT: mechanical design.
The contact author has declared that none of the authors has any competing interests.
This study was conducted after obtaining approval from the Experimental Animals Ethics Committee of Fırat University (2019/101).
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This study was supported by the Scientific and Technological Research Council of Türkiye (TUBITAK-TEYDEB project no. 3191749).
This paper was edited by Steffen Maak and reviewed by two anonymous referees.