Wambua Lillian, Bett Bernard, Abkallo Hussein M, Muturi Mathew, Nthiwa Daniel, Nyamota Richard, Kiprono Enock, Kirwa Lynn, Gakuya Francis, Bartlow Andrew W, Middlebrook Earl A, Fair Jeanne, Njenga Kariuki, Gachohi John, Mwatondo Athman, Akoko James M
International Livestock Research Institute, Nairobi, Kenya.
World Organisation for Animal Health, Sub-Regional Representation for Eastern Africa, Nairobi, Kenya.
Sci Rep. 2025 Mar 21;15(1):9706. doi: 10.1038/s41598-025-94154-3.
Coxiella burnetii, the causative agent of Q fever, is an emerging pathogen that has the potential to cause severe chronic infections in animals and humans worldwide. The detrimental impact on public health is projected to be higher in the low- and middle-income countries given their lower capacity to sustain effective surveillance and response measures. We implemented a national serosurvey of cattle in Kenya to map the spatial distribution of the pathogen. The study used serum samples that were collected from randomly selected cattle in different ago-ecological zones across the country. These samples were screened for the pathogen using PrioCHECK Ruminant Q Fever AB Plate ELISA kit. The laboratory findings were analyzed using INLA package to identify risk factors for C. burnetii exposure from herd- and animal-level factors, area, and bioclimatic datasets accessed from online databases. A total of 6,593 cattle were recruited for the study; of these, 7.9% (95% CI; 7.2-8.5) were seropositive. Outputs from the multivariable analysis revealed that the animal age and some of the geographical variables including wind speed, area under shrubs and "petric calcisols" type of soil were significantly associated with C. burnetii seropositivity. Being a calf, weaner or subadult was associated with lower odds of exposure compared to being an adult by 0.24 (credibility interval: 2.5% and 97.5%), 0.41 (0.30-0.55) and 0.51 (0.38-0.69), respectively. In addition, a unit increase in the wind speed increased the odds of C. burnetii seropositivity by 1.27 (1.05-1.52) while an increase on the land area under shrubs was associated with lower odds of exposure (0.67 [0.47-0.69]). The effect of petric calcisols was non-linear; an increase of the land area with this soil type was associated with an exponential increase in C. burnetii seropositivity. This study provides new data on C. burnetii seroprevalence, information of its risk factors and a prevalence map that can be used for C. burnetii risk surveillance and control. The identification of environmental risk factors for C. burnetii exposure, and the increasing awareness of the zoonotic potential of the pathogen, calls for the need to enhance the existing collaborations for the surveillance and control of C. burnetii in line with the One Health framework. The evidence generated on the potential role of environmental factors can also be used to design nature-based interventions, such as replacement of vegetation in denuded areas, to reduce potential for the aerosolization of the pathogen. Livestock vaccination in the hotspots would also reduce animal infections and hence the contamination of the environment.
伯纳特柯克斯体是Q热的病原体,是一种新出现的病原体,有可能在全球范围内的动物和人类中引发严重的慢性感染。鉴于低收入和中等收入国家维持有效监测和应对措施的能力较低,预计其对公共卫生的不利影响会更大。我们在肯尼亚对牛群进行了一次全国血清学调查,以绘制该病原体的空间分布图。该研究使用了从全国不同年龄生态区随机选取的牛的血清样本。这些样本使用PrioCHECK反刍动物Q热AB板ELISA试剂盒进行病原体筛查。使用INLA软件包对实验室结果进行分析,以确定来自畜群和动物层面因素、区域以及从在线数据库获取的生物气候数据集等伯氏考克斯氏体暴露的风险因素。共有6593头牛被纳入该研究;其中,7.9%(95%可信区间;7.2 - 8.5)呈血清阳性。多变量分析的结果显示,动物年龄以及一些地理变量,包括风速、灌木覆盖面积和“石质钙质土”类型的土壤,与伯氏考克斯氏体血清阳性显著相关。与成年牛相比,犊牛、断奶牛或亚成年牛暴露的几率分别低0.24(可信区间:2.5%和97.5%)、0.41(0.30 - 0.55)和0.51(0.38 - 0.69)。此外,风速每增加一个单位,伯氏考克斯氏体血清阳性的几率增加1.27(1.05 - 1.52),而灌木覆盖面积增加则与较低的暴露几率相关(0.67 [0.47 - 0.69])。石质钙质土的影响是非线性的;这种土壤类型的土地面积增加与伯氏考克斯氏体血清阳性呈指数增加相关。本研究提供了关于伯氏考克斯氏体血清流行率的新数据、其风险因素的信息以及一张可用于伯氏考克斯氏体风险监测和控制的流行率地图。确定伯氏考克斯氏体暴露的环境风险因素,以及对该病原体人畜共患病潜力认识的不断提高,要求根据“同一健康”框架加强现有的伯氏考克斯氏体监测和控制合作。关于环境因素潜在作用产生的证据也可用于设计基于自然的干预措施,例如在裸露地区替换植被,以减少病原体气溶胶化的可能性。在热点地区对牲畜进行疫苗接种也将减少动物感染,从而减少环境污染。
