Tāwharau Ora - School of Veterinary Science, Massey University, Palmerston North, New Zealand.
Dairy Hoofcare Institute, Ashburton, New Zealand.
N Z Vet J. 2023 Nov;71(6):295-305. doi: 10.1080/00480169.2023.2238654. Epub 2023 Aug 9.
To evaluate, in a pasture-based dairy herd, the response to a three-time point hoof trimming regime on lameness incidence and time from calving to observation of an elevated locomotion score (LS).
This study was conducted on a 940-cow spring-calving herd in New Zealand's North Island between May 2018 and May 2019. Cows (n = 250) were randomly allocated to the hoof trimming group, with the remainder assigned to the non-trim cohort. One trained professional hoof trimmer used the five-step Dutch method to trim the hind feet of the trimming group. Throughout the subsequent production season, the whole herd was locomotion-scored fortnightly using the 4-point (0-3) Dairy NZ lameness score. Kaplan-Meier survival curves were used to assess the univariable effect of trimming on the interval between calving and first LS of ≥ 2 and first LS ≥ 1. A multivariable Cox proportional hazards regression was used to further evaluate the effect of trimming on time to elevated LS.
Mean lameness (LS ≥ 2) prevalence was 2.6%, with 30% of cows having ≥ 4 observations during the study period when at least one LS was ≥ 2. For LS ≥ 1, mean prevalence was 40%, with 98.6% of cows having ≥ 4 observations during the study period when at least one LS was ≥ 1 during lactation. Hoof trimming had no apparent effect on the incidence of clinical lameness (LS ≥ 2) (trimmed non-trimmed: 33.2% 28.8%, respectively), but for LS ≥ 1, there was a small decrease in the incidence of LS ≥ 1 (trimmed non-trimmed: 96.9% . 99.3%, respectively). The hazard of a cow having a first observed LS ≥ 2 in the control group was 0.87 (95% CI = 0.66-1.14) times that of the trimmed group; however, the hazard of a cow having a first LS ≥ 1 was 1.60 (95% CI = 1.37-1.88) times higher in the control than in the trimmed group.
On this farm, prophylactic hoof trimming had no clinically relevant impact on the incidence of clinical lameness and was not associated with clinically beneficial reductions in time to first observed LS ≥ 2. This may be because claw horn imbalance was not pronounced on this farm, with 53% of cows needing no trim on either hind limb on the first trimming occasion. Further research on the response to prophylactic trimming in pasture-based dairy cattle is required.
评估在基于牧场的奶牛群中,三次蹄修剪制度对跛行发病率和从产犊到观察到较高运动评分(LS)的时间的反应。
本研究于 2018 年 5 月至 2019 年 5 月在新西兰北岛的一个 940 头奶牛春季产犊的牛群中进行。奶牛(n=250)被随机分配到蹄修剪组,其余奶牛被分配到非修剪组。一名经过培训的专业蹄修剪师使用五步荷兰方法修剪修剪组的后脚。在随后的整个生产季节中,使用新西兰乳业的 4 分制(0-3)跛行评分每两周对整个牛群进行运动评分。Kaplan-Meier 生存曲线用于评估修剪对产犊后第一次 LS≥2 和第一次 LS≥1 的间隔的单变量影响。多变量 Cox 比例风险回归用于进一步评估修剪对 LS 升高时间的影响。
跛行(LS≥2)的平均患病率为 2.6%,在研究期间至少有一次 LS≥2 的 30%的奶牛有≥4 次观察。对于 LS≥1,平均患病率为 40%,在研究期间至少有一次 LS≥1 的 98.6%的奶牛有≥4 次观察。蹄修剪对临床跛行(LS≥2)的发病率没有明显影响(修剪:非修剪:分别为 33.2%和 28.8%),但对于 LS≥1,LS≥1 的发病率略有下降(修剪:非修剪:分别为 96.9%和 99.3%)。对照组中第一次观察到 LS≥2 的奶牛的危险比为修剪组的 0.87(95%CI=0.66-1.14)倍;然而,对照组中第一次 LS≥1 的奶牛的危险比修剪组高 1.60(95%CI=1.37-1.88)倍。
在该农场,预防性蹄修剪对临床跛行的发病率没有临床相关影响,与首次观察到 LS≥2 的时间缩短无关。这可能是因为在这个农场,爪角不平衡不明显,53%的奶牛在第一次修剪时,两条后腿都不需要修剪。需要对基于牧场的奶牛预防性修剪的反应进行进一步研究。
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