Randomized controlled non-inferiority trial investigating the effect of 2 selective dry-cow therapy protocols on antibiotic use at dry-off and dry period intramammary infection dynamics

Rowe, Sam; Godden, Sandra; Nydam, D.V.; Gorden, Patrick J.; Lago, A.; Vasquez, A.K.; Royster, E.; Timmerman, J.; Thomas, Mark J.

doi:10.3168/jds.2019-17728

Cited by 54 publications

(76 citation statements)

References 47 publications

(96 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…In addition, the prevalence of IMI caused by Staphylococcus aureus (0.4% of quarters at risk) and gram-negative pathogens (0.5%) was low. The quarterlevel prevalence of IMI at 1 to 13 DIM was 12.8%, which is slightly less than other multi-herd studies of DCT protocols using ITS in the United States, which found risks of 23.0% (Rowe et al, 2020a), 23.0% (Johnson et al, 2016), and 14.7% (Arruda et al, 2013). The profile of pathogens causing IMI at 1 to 13 DIM in the current study was similar to the aforementioned studies, with gram-positive (324 of 358 infected quarters, 90.1%) and NAS being the predominant causes (225 of 358, 62.8%) and gram-negative pathogens being uncommon (32 of 358, 1.1%).…”

Section: Prevalence Of Quarter-level Imi At Dry-off and At 1 To 13 Dimmentioning

confidence: 56%

Randomized equivalence study comparing the efficacy of 2 commercial internal teat sealants in dairy cows

Rowe

Godden

Nydam

et al. 2020

Journal of Dairy Science

Self Cite

View full text Add to dashboard Cite

The use of an internal teat sealant (ITS) at dry-off has been repeatedly shown to improve udder health in the subsequent lactation. However, almost all ITS research conducted in North America has evaluated one product (Orbeseal, Zoetis, Parsippany, NJ). The objective of this study was to evaluate a new ITS product (Lockout, Boehringer-Ingelheim Animal Health, Duluth, GA), by comparing it directly to Orbeseal in a multi-site, randomized, positively controlled equivalence trial for health indicators during the dry period [quarter-level new intramammary infection (IMI) risk, IMI cure risk, and IMI risk at 1 to 13 d in milk, DIM] and during the first 100 DIM [clinical mastitis and culling or death risk and test-day milk somatic cell count (SCC) and milk yield]. At dry-off, cows were randomly allocated to be treated with Orbeseal or Lockout after blanket administration of a cloxacillin dry cow therapy product. Cows were then followed from dry-off until 100 DIM. Intramammary infection status at enrollment and at 1 to 13 DIM was determined using standard bacteriological methods, allowing for the measurement of IMI dynamics during the dry period (i.e., IMI cures and new IMI). The effect of ITS group on dry period IMI cure, dry period new IMI, and IMI risk at 1 to 13 DIM was determined using generalized linear mixed models (logistic). Marginal standardization was used to derive risk difference estimates. An equivalence hypothesis test was conducted to compare ITS groups for dry period new IMI risk (margin of equivalence was ±5% units). The effect of ITS group on clinical mastitis and culling or death was determined using Cox proportional hazards regression. The effect of ITS group on testday SCC and milk yield was determined using linear mixed models. Final models indicated that measures of quarter-level IMI dynamics were similar between ITS groups (i.e., risk difference estimates and 95% confidence intervals all close to zero). Furthermore, Lockout was found to be equivalent to Orbeseal for dry period new IMI risk using an equivalence hypothesis test. Hazard ratio estimates for clinical mastitis and culling or death were close to 1 and differences in SCC and milk yield between ITS groups were close to 0, indicating negligible effects of ITS group on test-day SCC and milk yield. In most cases, these effect estimates were relatively precise (i.e., narrow 95% confidence intervals). We conclude that producers using blanket dry cow therapy could consider including Orbeseal or Lockout treatment in their programs.

show abstract

Section: Prevalence Of Quarter-level Imi At Dry-off and At 1 To 13 Dimmentioning

confidence: 56%

Randomized equivalence study comparing the efficacy of 2 commercial internal teat sealants in dairy cows

Rowe

Godden

Nydam

et al. 2020

Journal of Dairy Science

Self Cite

View full text Add to dashboard Cite

show abstract

“…If barriers for DO at quarter level are overcome, our study shows AB use at DO can be substantially reduced by a range of 11 to 57% in study herds. This reduction would be on top of antibiotic reductions of 21% (Cameron et al, 2014) and 55% (Rowe et al, 2020a) as shown by others to already be achieved by switching from blanket to selective dry cow treatment at the cow level. Such approaches are in line with recommendations of prudent AB use coming from a growing concern regarding the potential for AB use in food animals to promote the future emergence of antimicrobial resistance in bacteria (O'Neill, 2014).…”

Section: Discussionmentioning

confidence: 89%

“…Antibiotic dry cow treatment is widely used for the cure and prevention of IMI (Halasa et al, 2009a,b). Three strategies have been recommended (Kabera et al, 2020;Rowe et al, 2020a): treatment of all cows to be dried off with antibiotics (AB) regardless of infection status (blanket cow level treatment, BCLT), treatment of all 4 quarters of infected cows (selective cow level treatment, SCLT), and treatment of infected quarters (selective quarter level treatment, SQLT).…”

Section: Introductionmentioning

confidence: 99%

Randomized controlled field trial comparing quarter and cow level selective dry cow treatment using the California Mastitis Test

Swinkels

Leach²,

Breen

et al. 2021

Journal of Dairy Science

View full text Add to dashboard Cite

Selective use of antibiotic dry cow treatment can be implemented at the cow or quarter level, with the latter having the potential to further reduce antibiotic use. Our objective was to compare these 2 approaches in 6 herds in the United Kingdom in which environmental mastitis predominated. Eight hundred seven cows were enrolled and categorized as having a high cell count (n = 401) or low cell count (n = 406) in the last 3 mo of lactation and clinical mastitis history. All quarters of all enrolled cows received an internal teat sealant. Within each category, cows were randomly allocated to 1 of 3 groups; in one group antibiotic treatment was allocated at cow level (i.e., all 4 quarters received antibiotic), whereas in the 2 remaining groups antibiotic treatment was allocated at quarter level, based on California Mastitis Test (CMT) findings. Two different thresholds, score 1 and 2, were used to determine likely infection status. Quarter milk samples were collected at dry off and postcalving for bacteriological culture and somatic cell count (SCC). Cows were monitored for clinical mastitis from dry off until 100 d in milk. Cow level SCC and milk yield data were collated from farm records. Within each category, the 2 quarter level treatment groups were compared with cow level treatment at dry off. Leaving quarters untreated with intramammary antibiotic in cows in the high cell count group, with a CMT <2 or <1, reduced antibiotic use by 55% and 31%, respectively, and resulted in no difference in the odds of being infected with any pathogen postcalving, but was associated with a higher SCC at the first test day. Intramammary antibiotic treatment of quarters with a CMT ≥1 in cows in the low cell count category at dry off was not associated with any reduction in the odds of being infected with a major pathogen postcalving but was associated with a decrease in the odds of being infected with a minor mastitis pathogen postcalving.The use of antibiotics in quarters of cows categorized as low cell count at dry off, increased the proportion of quarters treated with antibiotic from 0% at cow level to 31% (CMT ≥ 1) and 12% (CMT ≥ 2) at quarter level, only resulting in a reduction in SCC of around 20,000 cells/mL at the first test day, if all quarters with CMT score ≥1 were treated with antibiotic. No differences in clinical mastitis incidence and milk yield in the first 100 d in milk were detected between any of the treatment groups. These study findings support selective quarter level dry off treatment only in cows with cow level SCC >200,000 cells/mL at dry off.

show abstract

“…Mastitis remains an ongoing health problem, especially when caused by persistent intracellular bacterial infection, such as S. uberis (1,7). Recent ndings in our lab have shown that in ammation is tightly controlled, which protects the host from excessive or chronic damage induced by this process (13).…”

Section: Discussionmentioning

confidence: 97%

“…More than 150 different pathogens can cause mammary gland infection and no speci c vaccines are available. Antibiotics combined with anti-in ammatory drug therapy is the usual method to control mastitis (1). These therapies are often ineffective for the diversity of pathogens and the complexity of breast tissue (2,3).…”

Section: Introductionmentioning

confidence: 99%

Taurine reprograms mammary-gland metabolism and alleviates inflammation induced by Streptococcus uberis

Lan

Wan

et al. 2021

Preprint

View full text Add to dashboard Cite

Streptococcus uberis (S. uberis) is an important pathogen causing mastitis,which causes continuous inflammation and dysfunction of mammary glands and leads to enormous economic losses. Most research on infection continues to be microbial metabolism-centric, and many overlook the fact that pathogens require energy from host. In this perspective, we uncover metabolic reprogramming during host immune responses is associated with infection-driven inflammation, particularly when caused by intracellular bacteria. Taurine, a metabolic regulator, has been shown to effectively ameliorate metabolic diseases. We evaluated the role of taurine in the metabolic regulation of S. uberis-induced mastitis. Metabolic profiling indicates that S. uberis exposure triggers inflammation and metabolic dysfunction of msmmary glands and mammary epithelial cells (MECs, the main functional cells in mammary glands). Challenge with S. uberis upregulates glycolysis and oxidative phosphorylation in MECs. Pretreatment with taurine restores metabolic homeostasis, reverses metabolic dysfunction by decrease of lipid, amino acid and especially energy disturbance in the infectious context, and alleviates excessive inflammatory responses. These outcomes depend on taurine-mediated activation of the AMPK–mTOR pathway, which inhibits the over activation of inflammatory responses and alleviates cellular damage. Thus, metabolic homeostasis is essential for reducing inflammation. Metabolic modulation can be used as a prophylactic strategy against mastitis. IMPORTANCE: Mastitis, especially caused by Streptococcus uberis, induces continuous inflammation and dysfunction of mammary glands, leading to enormous economic losses in dairy industry. Mammary epithelial cells (MECs) are mammary gland-resident major functional cells which occupy a significant role in maintaining homeostasis in mammary glands. MECs can adopt an inflammatory trending in response to S. uberis infection and try to clear these intracellular bacteria. Researchers at Nanjing Agricultural University in China found that S. uberis induces MECs acute inflammation caused by metabolic dysregulation, that is, increased oxidative phosphorylation (OXPHOS) and glycolysis. However, taurine pretreatment can enhance metabolic fitness and anti-inflammatory activity. As a potential therapy, metabolic regulation with taurine restored MECs homeostasis and reduced excessive inflammation. The findings suggest that modulating MECS metabolism might be a new therapeutic strategy for mastitis as well as other bacterial infections.

show abstract

Randomized controlled non-inferiority trial investigating the effect of 2 selective dry-cow therapy protocols on antibiotic use at dry-off and dry period intramammary infection dynamics

Cited by 54 publications

References 47 publications

Randomized equivalence study comparing the efficacy of 2 commercial internal teat sealants in dairy cows

Randomized equivalence study comparing the efficacy of 2 commercial internal teat sealants in dairy cows

Randomized controlled field trial comparing quarter and cow level selective dry cow treatment using the California Mastitis Test

Taurine reprograms mammary-gland metabolism and alleviates inflammation induced by Streptococcus uberis

Contact Info

Product

Resources

About