Division of Molecular Pathobiology, Research Center for Zoonosis Control, Hokkaido University, Sapporo, Japan.
Ministry of Fisheries and Livestock, Lusaka, Zambia.
Transbound Emerg Dis. 2020 Nov;67(6):2741-2752. doi: 10.1111/tbed.13630. Epub 2020 Jun 2.
African swine fever (ASF) causes persistent outbreaks in endemic and non-endemic regions in Zambia. However, the epidemiology of the disease is poorly understood, particularly during the inter-epidemic periods. We conducted surveillance for ASF in asymptomatic domestic pigs and soft ticks in selected Zambian provinces. While serum samples (n = 1,134) were collected from crossbred pigs from all study sites between 2014 and 2017, whole blood (n = 300) was collected from both crossbred and indigenous pigs in Eastern Province (EP) in 2017. Soft ticks were collected from Mosi-oa-Tunya National Park in Southern Province (SP) in 2019. Sera were screened for antibodies against ASF by ELISA while genome detection in whole blood and soft ticks was conducted by PCR. Ticks were identified morphologically and by phylogenetic analysis of the 16S rRNA gene. Seroprevalence was highest in EP (50.9%, 95% CI [47.0-54.9]) compared to significantly lower rates in SP (2.9%, 95% CI [1.6-5.1]). No antibodies to ASFV were detected in Lusaka Province. In EP, the prevalence of ASFV genome was 11.7% (35/300), significantly higher (OR = 6.2, 95% CI [2.4-16.6]) in indigenous pigs compared to crossbred pigs. The pooled prevalence of ASFV genome in ticks was 11.0%, 95% CI [8.5-13.9]. Free-range husbandry system was the only factor that was significantly associated with seropositive (p < .0001, OR = 39.3) and PCR-positive results (p < .001, OR = 5.7). Phylogenetically, based on the p72 gene, ASFV from Ornithodoros moubata ticks detected in this study belonged to genotype I, but they separated into two distinct clusters. Besides confirming ASF endemicity in EP and the presence of ASFV-infected ticks in SP, these results provide evidence for exposure of domestic pigs to ASFV in non-endemic regions during the inter-epidemic period.
非洲猪瘟(ASF)在赞比亚的流行地区和非流行地区持续爆发。然而,该疾病的流行病学情况了解甚少,特别是在流行间歇期。我们在赞比亚的一些省份对无症状的家猪和软蜱进行了 ASF 监测。2014 年至 2017 年间,我们从所有研究地点的杂交猪中采集了血清样本(n=1134),2017 年从东方省(EP)的杂交猪和本地猪中采集了全血样本(n=300)。2019 年,我们在赞比西省(SP)的莫西奥图尼亚国家公园采集了软蜱。我们通过 ELISA 检测血清中的 ASF 抗体,通过 PCR 检测全血和软蜱中的病毒基因组。通过形态学和 16S rRNA 基因的系统发育分析鉴定蜱。血清学调查结果显示,EP 的血清阳性率最高(50.9%,95%CI[47.0-54.9]),明显高于 SP(2.9%,95%CI[1.6-5.1])。卢萨卡省未检测到 ASFV 抗体。在 EP,ASFV 基因组的流行率为 11.7%(35/300),显著高于杂交猪(OR=6.2,95%CI[2.4-16.6])。蜱的 ASFV 基因组总流行率为 11.0%,95%CI[8.5-13.9]。自由放养的养殖系统是唯一与血清阳性(p<.0001,OR=39.3)和 PCR 阳性结果(p<.001,OR=5.7)显著相关的因素。基于 p72 基因的系统发育分析表明,本研究中从 Ornithodoros moubata 蜱中检测到的 ASFV 属于基因 I,但它们分为两个不同的聚类。除了证实 EP 的 ASF 地方性流行和 SP 中存在感染 ASFV 的蜱外,这些结果还提供了在流行间歇期非流行地区家猪接触 ASFV 的证据。
