通过结合空间分析和基因分型评估马达加斯加塔那那利佛的结核病空间热点地区。

Assessment of tuberculosis spatial hotspot areas in Antananarivo, Madagascar, by combining spatial analysis and genotyping.

作者信息

Ratovonirina Noël Harijaona, Rakotosamimanana Niaina, Razafimahatratra Solohery Lalaina, Raherison Mamy Serge, Refrégier Guislaine, Sola Christophe, Rakotomanana Fanjasoa, Rasolofo Razanamparany Voahangy

机构信息

Unité des Mycobactéries, Institut Pasteur de Madagascar, Antananarivo, Madagascar.

Institute for Integrative Biology of the Cell (I2BC), CEA, CNRS, Univ. Paris-Sud, Université Paris-Saclay, 91198, Gif-sur-Yvette cedex, France.

出版信息

BMC Infect Dis. 2017 Aug 14;17(1):562. doi: 10.1186/s12879-017-2653-9.

DOI:10.1186/s12879-017-2653-9

PMID:28806916

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5557477/

Abstract

BACKGROUND

Tuberculosis (TB) remains a public health problem in Madagascar. A crucial element of TB control is the development of an easy and rapid method for the orientation of TB control strategies in the country. Our main objective was to develop a TB spatial hotspot identification method by combining spatial analysis and TB genotyping method in Antananarivo.

METHODS

Sputa of new pulmonary TB cases from 20 TB diagnosis and treatment centers (DTCs) in Antananarivo were collected from August 2013 to May 2014 for culture. Mycobacterium tuberculosis complex (MTBC) clinical isolates were typed by spoligotyping on a Luminex® 200 platform. All TB patients were respectively localized according to their neighborhood residence and the spatial distribution of all pulmonary TB patients and patients with genotypic clustered isolates were scanned respectively by the Kulldorff spatial scanning method for identification of significant spatial clustering. Areas exhibiting spatial clustering of patients with genotypic clustered isolates were considered as hotspot TB areas for transmission.

RESULTS

Overall, 467 new cases were included in the study, and 394 spoligotypes were obtained (84.4%). New TB cases were distributed in 133 of the 192 Fokontany (administrative neighborhoods) of Antananarivo (1 to 15 clinical patients per Fokontany) and patients with genotypic clustered isolates were distributed in 127 of the 192 Fokontany (1 to 13 per Fokontany). A single spatial focal point of epidemics was detected when ignoring genotypic data (p = 0.039). One Fokontany of this focal point and three additional ones were detected to be spatially clustered when taking genotypes into account (p < 0.05). These four areas were declared potential TB transmission hotspots in Antananarivo and will be considered as priority targets for surveillance in the future.

CONCLUSION

This method, combining spatial analysis and TB genotyping will now be used for further focused clinical and epidemiological studies in Madagascar and will allow better TB control strategies by public health authorities.

摘要

背景

结核病在马达加斯加仍然是一个公共卫生问题。结核病控制的一个关键要素是开发一种简单快速的方法，用于指导该国的结核病控制策略。我们的主要目标是通过结合空间分析和结核病基因分型方法，在塔那那利佛开发一种结核病空间热点识别方法。

方法

2013年8月至2014年5月，从塔那那利佛20个结核病诊断和治疗中心（DTC）收集新的肺结核病例的痰液进行培养。结核分枝杆菌复合群（MTBC）临床分离株在Luminex® 200平台上通过间隔寡核苷酸分型（spoligotyping）进行分型。所有结核病患者分别根据其居住社区进行定位，并分别采用Kulldorff空间扫描方法扫描所有肺结核患者和基因分型聚集分离株患者的空间分布，以识别显著的空间聚集。基因分型聚集分离株患者表现出空间聚集的区域被视为结核病传播的热点地区。

结果

总体而言，467例新病例纳入研究，获得394种间隔寡核苷酸分型（84.4%）。新的结核病病例分布在塔那那利佛192个行政区（Fokontany，行政社区）中的133个（每个行政区1至15名临床患者），基因分型聚集分离株患者分布在192个行政区中的127个（每个行政区1至13名）。忽略基因分型数据时检测到一个单一的空间流行焦点（p = 0.039）。考虑基因型时，该焦点的一个行政区和另外三个行政区被检测到存在空间聚集（p < 0.05）。这四个区域被宣布为塔那那利佛潜在的结核病传播热点，未来将被视为监测的优先目标。

结论

这种结合空间分析和结核病基因分型的方法现在将用于马达加斯加进一步的重点临床和流行病学研究，并将使公共卫生当局能够制定更好的结核病控制策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7cc5/5557477/3b9ee500ae30/12879_2017_2653_Fig1_HTML.jpg

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通过结合空间分析和基因分型评估马达加斯加塔那那利佛的结核病空间热点地区。

Assessment of tuberculosis spatial hotspot areas in Antananarivo, Madagascar, by combining spatial analysis and genotyping.

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