Animal Health Service, Deventer, The Netherlands.
Vet Microbiol. 2010 May 19;142(3-4):268-75. doi: 10.1016/j.vetmic.2009.10.026. Epub 2009 Nov 6.
Bluetongue virus serotype 8 (BTV-8) emerged in the Netherlands in August 2006 for the first time. In the winter of 2006/2007, during the transmission free period, the government decided to establish a sentinel network to monitor the re-emergence of BTV-8 in 2007. Between June and December 2007, a sentinel network of 275 dairy herds with 8901 seronegative cows at start, was in place for BTV-8 testing in milk samples. Besides estimates of the monthly BTV-8 within-herd prevalence per region (south, central and north), this sentinel was used to determine BTV-8 associated risk factors. Information on management and housing practices that were hypothesized to be related to the increase in BTV-8 prevalence (risk factors) were used. Complete information on BTV-8 testing and management was obtained for 234 herds. At herd level, the increase in seroprevalence was defined as the total increase in seroprevalence amongst sentinel cows per herd during the sampling period (in months) divided by the number of sampling months in which the spread of BTV-8 occurred within the particular compartment in which the herd was located. This parameter was used as dependent variable in the linear regression analysis. The final model revealed four risk factors remained in the final model. Herds in the central and southern region of the Netherlands had a higher monthly increase in seroprevalence 6.4% (95% CI: 3.1-9.9) and 10.1% (95% CI: 6.2-14.3), respectively compared to herds in the northern region. Furthermore, there was a strong association with grazing. The monthly increase in seroprevalence in cattle pastured a few hours per day or throughout the day was 5.6% (95% CI: 1.4-10.2) to 11.4% (95% CI: 6.0-17.3) higher, relative to that for cattle kept indoors. For cattle that grazed outdoors throughout the day and the night, the monthly increase in seroprevalence was 13.6% (95% CI: 7.2-20.8). In addition, an association was found between the monthly increase in seroprevalence and some factors relating to stable design. Keeping the stable doors closed during the day was linked to a higher seroprevalence rate compared to that in stables with the door left open (3.6% (95% CI: 0.3-7.1)). Furthermore, a horizontal ventilation opening (>30 cm) along the walls of the stable, and with a windbreak curtain, appeared to offer some protection (-3.0% per month (95% CI: -6.0 to 0.2)) as compared to stables that had no or, only a small, ventilation opening (<30 cm). By the second half of 2007, bluetongue had spread over throughout the Netherlands. Our study indicated that there were some management factors that may help limit exposure to BTV-8 and its consequences.
2006 年 8 月,蓝舌病病毒 8 型(BTV-8)首次在荷兰出现。2006/2007 年冬季,在无传播期,政府决定建立一个监测哨点网络,以监测 2007 年 BTV-8 的再次出现。在 2007 年 6 月至 12 月期间,建立了一个由 275 个奶牛场组成的监测哨点网络,这些奶牛场有 8901 头初始血清阴性的奶牛,用于检测牛奶样本中的 BTV-8。除了估计每个地区(南部、中部和北部)的 BTV-8 每月畜群内流行率外,该监测哨点还用于确定 BTV-8 相关的风险因素。使用了与 BTV-8 流行率增加(风险因素)相关的管理和住房做法的信息。获得了 234 个牧场的 BTV-8 检测和管理的完整信息。在牧场水平上,血清阳性率的增加定义为在采样期间(以月为单位)每个牧场血清阳性牛的总增加率,除以在牧场所在特定隔间内发生 BTV-8 传播的采样月数。该参数被用作线性回归分析中的因变量。最终模型显示,有四个风险因素仍然存在于最终模型中。与北部地区的牧场相比,荷兰中部和南部地区的牧场每月血清阳性率的增加率分别为 6.4%(95%CI:3.1-9.9)和 10.1%(95%CI:6.2-14.3)。此外,放牧与血清阳性率的增加有很强的相关性。每天放牧数小时或全天放牧的牛的血清阳性率每月增加 5.6%(95%CI:1.4-10.2)至 11.4%(95%CI:6.0-17.3),高于室内饲养的牛。对于全天和夜间都在户外放牧的牛,血清阳性率每月增加 13.6%(95%CI:7.2-20.8)。此外,还发现血清阳性率的增加与一些与畜舍设计有关的因素之间存在关联。与畜舍门整天开着相比,畜舍门整天关着与更高的血清阳性率有关(3.6%(95%CI:0.3-7.1))。此外,畜舍墙壁上有一个沿水平方向的通风口(>30cm),并配有防风帘,与没有或只有一个小通风口(<30cm)的畜舍相比,每月的血清阳性率似乎会降低(每月减少 3.0%(95%CI:-6.0 至 0.2))。到 2007 年下半年,蓝舌病已蔓延到整个荷兰。我们的研究表明,有一些管理因素可能有助于限制接触 BTV-8 及其后果。
