coli O157:H7 shedding and high shedding in a large-pen commercial

coli O157:H7 shedding and high shedding in a large-pen commercial feedlot setting. Although vaccine efficacy has been demonstrated previously [15], [25] and [26], key features differ between previous studies and the study reported here. The SRP® vaccine was first shown to reduce fecal shedding in young calves orally inoculated with E. coli O157:H7 [28]. Cattle that were naturally shedding E. coli O157:H7

in a research feedlot were used to show beta-catenin pathway that 3 mL doses of vaccine reduced fecal shedding; a dose–response trend was also observed [25]. In one feedlot study, a 2-dose regimen of the vaccine reduced fecal prevalence, and in another study, a 3-dose regimen reduced fecal concentration [26]. A cow-calf study found no significant vaccine effects, but Selleckchem ABT888 cattle were vaccinated at much different production phases [27]. In addition to differing study designs, vaccine dosages, or study populations, this commercial feedlot study reported here utilized very large pens while others used smaller pens (≤70 animals/pen) [15], [25] and [26]. A recent systematic review indicating efficacy of the SRP® vaccine suggested that further studies in commercial settings were needed [14]. No evidence for any DFM (Bovamine®) effect on E. coli O157:H7 fecal shedding was observed, contradicting some results of empirical studies and a systematic review indicating efficacy of this L. acidophilus strain (NP51) [5],

[10], [28], [29], [30], [31] and [32]. Possibly larger pen sizes and a lower dose of product

in the current study compared to previous studies could explain seemingly contradictory results. This commercial feedlot study utilized large pens while many other studies used much smaller (≤10 animals/pen) pens [28], [29], [30], [31] and [32]. Further, efficacy of this DFM for reducing E. coli O157:H7 may be improved at a higher dose [10], [29] and [32]. The commercial low-dose Bovamine® product (106 CFU/head/day of Lactobacillus) was utilized in the current study because of the perception that this product can reduce fecal shedding and also improve cattle performance. Indeed, there are important practical implications if a pre-harvest control program could reduce E. coli O157:H7 fecal shedding while improving animal performance. A meta-analysis demonstrated that this DFM can Oxygenase improve feedlot cattle performance [33]; reported summary effects were similar to effects reported here. However, results indicating lower weight gain per day and less efficient feed conversion for vaccinated versus unvaccinated pens are novel. Previous feedlot studies with this vaccine did not detect significant differences in cattle performance [15]. However, in previous studies both vaccine and control groups were handled on re-vaccination days and controls were given a placebo. Further, previous studies had much smaller sample sizes to detect differences with half as many pens (20) and much fewer animals overall (<1300) than the current study (40 and >17,000, respectively).

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