MERS-CoV exposure and risk factors for MERS-CoV ELISA seropositivity among members of livestock-owning households in southern Jordan: a population based cross-sectional study

IF 20.9 1区 生物学 Q1 INFECTIOUS DISEASES
Peter M Holloway PhD , Matthew D Gibson MSc , Tanja T Holloway MD , Neeltje van Doremalen PhD , Vincent J Munster PhD , Bilal Al-Omari BSc , Michael C Letko PhD , Stephen Nash MSc , Jacqueline M Cardwell PhD , Prof Ehab A Abu-Basha PhD , Prof Wail Hayajneh PhD , Prof Punam Mangtani PhD , Prof Javier Guitian PhD
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Extensively managed herds, ubiquitous across the Arabian Peninsula, present a major potential source of primary infection. In this study we aimed to address key knowledge gaps regarding MERS epidemiology among high-risk communities associated with such herds, which is essential information for effective control strategies.</p></div><div><h3>Methods</h3><p>We did a cross-sectional study between Sept 27, 2017, and Oct 11, 2018, among members of livestock-owning households in southern Jordan (Aqaba East, Aqaba West, Ma’an East, and Ma’an West regions), with random selection of households (house and tent dwellings) from Ministry of Agriculture lists via computer-generated randomisation lists. Household visits were done, with questionnaires administered to household members regarding potential risk factors for MERS-CoV exposure in the past 6 months and blood samples and nasal and oral swabs collected, alongside physical examination data including blood pressure and blood glucose. Children younger than 5 years and individuals without capacity to provide informed consent were excluded. Serum was tested for IgG antibodies to MERS-CoV spike protein (S1 subunit) and nucleocapsid (N) protein with in-house indirect ELISAs, and viral RNA was detected in nasal and oral samples by RT-PCR. The primary outcome was evidence of MERS-CoV exposure (ascertained by seropositive status on S1 or N ELISAs, or a positive swab sample on RT-PCR); secondary outcomes were potential associations between possible risk factors and seropositive status. RT-PCR data were to be presented descriptively. Seroprevalence estimates were obtained at the individual and household levels, and associations between hypothetical risk factors and seropositive status were assessed with use of mixed-effects logistic regression.</p></div><div><h3>Findings</h3><p>We sampled 879 household members (median age 27 years [IQR 16–44]; 471 [54%] males and 408 [46%] females) from 204 households. 72 (8%) household members were seropositive on S1 ELISA (n=25, 3%) or N ELISA (n=52, 6%). No positive nasal or oral swab samples were identified on RT-PCR. Within-household clustering was identified for seropositivity on S1 ELISA (intraclass correlation coefficient 0·88 [0·35–0·96]) but not N ELISA (0·00 [0·00–0·27]). On multivariable analysis, S1 ELISA seropositivity was associated with frequently (≥weekly) interacting with young (age &lt;1 year) camels (adjusted odds ratio [OR<sub>adj</sub>] 3·85 [95% CI 1·41–11·61], p=0·011), with frequent kissing and petting (OR<sub>adj</sub> 4·56 [1·55–15·42], p=0·0074), and frequent feeding and watering (OR<sub>adj</sub> 4·97 [1·80–15·29], p=0·0027) of young camels identified as risk activities. Attending camel races (OR<sub>adj</sub> 3·73 [1·11–12·47], p=0·029), frequently feeding and watering camels of any age (OR<sub>adj</sub> 3·18 [1·12–10·84], p=0·040), and elevated blood glucose (&gt;150 mg/dL; OR<sub>adj</sub> 4·59 [1·23–18·36], p=0·021) were also associated with S1 ELISA seropositivity. 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引用次数: 0

Abstract

Background

Although dromedary camels (Camelus dromedarius) are known to be the host reservoir for MERS-CoV, the virus causing Middle East respiratory syndrome (MERS), zoonotic transmission pathways and camel subpopulations posing highest transmission risk are poorly understood. Extensively managed herds, ubiquitous across the Arabian Peninsula, present a major potential source of primary infection. In this study we aimed to address key knowledge gaps regarding MERS epidemiology among high-risk communities associated with such herds, which is essential information for effective control strategies.

Methods

We did a cross-sectional study between Sept 27, 2017, and Oct 11, 2018, among members of livestock-owning households in southern Jordan (Aqaba East, Aqaba West, Ma’an East, and Ma’an West regions), with random selection of households (house and tent dwellings) from Ministry of Agriculture lists via computer-generated randomisation lists. Household visits were done, with questionnaires administered to household members regarding potential risk factors for MERS-CoV exposure in the past 6 months and blood samples and nasal and oral swabs collected, alongside physical examination data including blood pressure and blood glucose. Children younger than 5 years and individuals without capacity to provide informed consent were excluded. Serum was tested for IgG antibodies to MERS-CoV spike protein (S1 subunit) and nucleocapsid (N) protein with in-house indirect ELISAs, and viral RNA was detected in nasal and oral samples by RT-PCR. The primary outcome was evidence of MERS-CoV exposure (ascertained by seropositive status on S1 or N ELISAs, or a positive swab sample on RT-PCR); secondary outcomes were potential associations between possible risk factors and seropositive status. RT-PCR data were to be presented descriptively. Seroprevalence estimates were obtained at the individual and household levels, and associations between hypothetical risk factors and seropositive status were assessed with use of mixed-effects logistic regression.

Findings

We sampled 879 household members (median age 27 years [IQR 16–44]; 471 [54%] males and 408 [46%] females) from 204 households. 72 (8%) household members were seropositive on S1 ELISA (n=25, 3%) or N ELISA (n=52, 6%). No positive nasal or oral swab samples were identified on RT-PCR. Within-household clustering was identified for seropositivity on S1 ELISA (intraclass correlation coefficient 0·88 [0·35–0·96]) but not N ELISA (0·00 [0·00–0·27]). On multivariable analysis, S1 ELISA seropositivity was associated with frequently (≥weekly) interacting with young (age <1 year) camels (adjusted odds ratio [ORadj] 3·85 [95% CI 1·41–11·61], p=0·011), with frequent kissing and petting (ORadj 4·56 [1·55–15·42], p=0·0074), and frequent feeding and watering (ORadj 4·97 [1·80–15·29], p=0·0027) of young camels identified as risk activities. Attending camel races (ORadj 3·73 [1·11–12·47], p=0·029), frequently feeding and watering camels of any age (ORadj 3·18 [1·12–10·84], p=0·040), and elevated blood glucose (>150 mg/dL; ORadj 4·59 [1·23–18·36], p=0·021) were also associated with S1 ELISA seropositivity. Among individuals without history of camel contact, S1 ELISA seropositivity was associated with sharing a household with an S1 ELISA-positive household member (ORadj 8·92 [1·06–92·99], p=0·044), and with sharing a household with an S1 ELISA-positive household member with history of camel contact (ORadj 24·74 [2·72–306·14], p=0·0050). N ELISA seropositivity was associated with age (categorical, p=0·0069), a household owning a young camel (age <18 months; ORadj 1·98 [1·02–4·09], p=0·043), and frequently feeding and watering camels of any age (ORadj 1·98 [1·09–3·69]; p=0·025).

Interpretation

The study findings highlight the importance of effective MERS-CoV surveillance and control strategies among camel-owning communities in Jordan and the Arabian Peninsula. Juvenile dromedaries pose increased risk for zoonotic MERS-CoV transmission and should be prioritised for vaccination once such vaccines become available. Among high-risk communities, vaccination strategies should prioritise camel-owning households, particularly individuals engaged in camel husbandry or racing, and household members who are older or diabetic, with evidence to suggest secondary within-household transmission.

Funding

UK Medical Research Council and US National Institute of Allergy and Infectious Diseases.

约旦南部畜牧业户成员的 MERS-CoV 暴露和 MERS-CoV ELISA 血清阳性的风险因素:一项基于人口的横断面研究。
背景:众所周知,单峰骆驼(Camelus dromedarius)是 MERS-CoV 的宿主储库,但人们对导致中东呼吸综合征(MERS)的病毒、人畜共患病传播途径以及传播风险最高的骆驼亚群却知之甚少。阿拉伯半岛到处都有管理严格的骆驼群,它们是主要的潜在原发感染源。在这项研究中,我们旨在填补与此类牧群相关的高危社区中有关 MERS 流行病学的关键知识空白,这些知识是制定有效控制策略的重要信息:2017年9月27日至2018年10月11日期间,我们在约旦南部(亚喀巴东区、亚喀巴西区、马安东区和马安西区)的畜牧业主家庭中进行了一项横断面研究,通过计算机生成的随机名单从农业部的名单中随机选择了家庭(房屋和帐篷住所)。进行了入户访问,向家庭成员发放了有关过去 6 个月中接触 MERS-CoV 潜在风险因素的调查问卷,并采集了血样、鼻腔和口腔拭子以及包括血压和血糖在内的体检数据。小于 5 岁的儿童和没有能力提供知情同意的个人被排除在外。通过内部间接 ELISA 检测血清中的 MERS-CoV 尖峰蛋白(S1 亚基)和核头状蛋白(N)IgG 抗体,并通过 RT-PCR 检测鼻腔和口腔样本中的病毒 RNA。主要结果是MERS-CoV暴露证据(通过S1或N ELISA血清阳性或RT-PCR拭子样本阳性确定);次要结果是可能的风险因素与血清阳性之间的潜在关联。RT-PCR 数据将以描述性方式呈现。在个人和家庭层面获得血清流行率估计值,并利用混合效应逻辑回归评估假设风险因素与血清阳性状态之间的关联:我们从 204 个家庭中抽取了 879 名家庭成员(中位数年龄为 27 岁 [IQR:16-44];男性 471 [54%],女性 408 [46%])。72名(8%)家庭成员在 S1 酶联免疫吸附试验(n=25,3%)或 N 酶联免疫吸附试验(n=52,6%)中血清反应呈阳性。RT-PCR 检测未发现鼻腔或口腔拭子样本阳性。在 S1 ELISA(类内相关系数为 0-88 [0-35-0-96] )而非 N ELISA(0-00 [0-00-0-27])中发现了血清阳性的户内聚集现象。在多变量分析中,S1 ELISA 血清阳性与频繁(≥每周一次)与幼骆驼接触(年龄adj] 3-85 [95% CI 1-41-11-61],p=0-011)、频繁亲吻和抚摸幼骆驼(ORadj 4-56 [1-55-15-42],p=0-0074)以及频繁喂食和喂水(ORadj 4-97 [1-80-15-29],p=0-0027)有关。参加骆驼比赛(ORadj 3-73 [1-11-12-47],p=0-029)、频繁喂养任何年龄的骆驼(ORadj 3-18 [1-12-10-84],p=0-040)和血糖升高(>150 mg/dL;ORadj 4-59 [1-23-18-36],p=0-021)也与 S1 ELISA 血清学阳性相关。在没有骆驼接触史的个体中,S1 ELISA血清阳性与与S1 ELISA阳性家庭成员同住一户有关(ORadj 8-92 [1-06-92-99],p=0-044),与与骆驼接触史的S1 ELISA阳性家庭成员同住一户有关(ORadj 24-74 [2-72-306-14],p=0-0050)。N ELISA血清阳性与年龄(分类,p=0-0069)、拥有小骆驼的家庭(年龄adj 1-98 [1-02-4-09],p=0-043)以及经常喂养任何年龄的骆驼(ORadj 1-98 [1-09-3-69];p=0-025)有关:研究结果凸显了在约旦和阿拉伯半岛的骆驼饲养社区中实施有效的 MERS-CoV 监控和控制策略的重要性。幼年单峰骆驼传播人畜共患病 MERS-CoV 的风险增加,一旦有疫苗可用,应优先接种。在高风险社区中,疫苗接种策略应优先考虑拥有骆驼的家庭,特别是从事骆驼饲养或赛跑的个人,以及年龄较大或患有糖尿病的家庭成员,因为有证据表明这些人在家庭内部会继发传播:资金来源:英国医学研究委员会和美国国家过敏与传染病研究所。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Lancet Microbe
Lancet Microbe Multiple-
CiteScore
27.20
自引率
0.80%
发文量
278
审稿时长
6 weeks
期刊介绍: The Lancet Microbe is a gold open access journal committed to publishing content relevant to clinical microbiologists worldwide, with a focus on studies that advance clinical understanding, challenge the status quo, and advocate change in health policy.
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