Effective intervention of brucellosis prevention in developing countries: A dynamic modelling study

IF 4.1 2区医学 Q1 INFECTIOUS DISEASES One Health Pub Date : 2024-06-17 DOI:10.1016/j.onehlt.2024.100840

Han Ni , Haoyun Dai , Xuewen Yang , Jin Zhao , Yuxi He , Shanghui Yi , Xiuqin Hong , Wenting Zha , Yuan Lv

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Abstract

Objective

Brucellosis has a considerable impact on human health and the economy in developing countries. In China, the biggest developing country, brucellosis shifted spread of the epidemic from northern to southern regions. Understanding the transmission characteristic of brucellosis on Hunan province, located in central China, is of great significance for successful control.

Methods

We developed a multi-population and multi-route dynamic model (MPMRDM), which is an animal-human-environment coupled model. The model is an extension of the SEIR model, taking into account direct transmission and indirect transmission. We used the model to explore the spread of brucellosis and evaluate the effectiveness of various intervention strategies.

Results

The animal-to-animal transmission rate was the highest at 5.14 × 10⁻⁸, while the environment-to-person transmission rate was the lowest at 9.49 × 10⁻¹². The mean R₀ was 1.51. The most effective intervention was taking personal protection, followed by shortening the infection period. Shortening the infection period combined with personal protection is the most effective two-combined intervention strategy. After any comprehensive intervention strategy was implemented, TAR dropped by 90% or more.

Conclusion

The results demonstrate that animal transmission route is essential for controlling human brucellosis. Strengthening personal protection, early detection, and early treatment can effectively control the trend of brucellosis. These results can provide an important reference for optimizing brucellosis intervention plans.

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发展中国家预防布鲁氏菌病的有效干预措施：动态模型研究

目的布鲁氏菌病对发展中国家的人类健康和经济产生了重大影响。在中国这个最大的发展中国家，布鲁氏菌病从北方向南方传播。我们建立了一个多种群和多路径动态模型（MPMRDM），这是一个动物-人类-环境耦合模型。该模型是 SEIR 模型的扩展，考虑了直接传播和间接传播。我们利用该模型探讨了布鲁氏菌病的传播情况，并评估了各种干预策略的有效性。结果动物对动物的传播率最高，为 5.14 × 10-8，而环境对人的传播率最低，为 9.49 × 10-12。平均 R0 为 1.51。最有效的干预措施是采取个人防护措施，其次是缩短感染期。缩短感染期与个人防护相结合是最有效的双管齐下的干预策略。结果表明，动物传播途径是控制人类布鲁氏菌病的关键。加强个人防护、早期发现和早期治疗可有效控制布鲁氏菌病的流行趋势。这些结果可为优化布鲁氏菌病干预方案提供重要参考。

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

One Health Medicine-Infectious Diseases

CiteScore

8.10

自引率

4.00%

发文量

审稿时长

18 weeks

期刊介绍： One Health - a Gold Open Access journal. The mission of One Health is to provide a platform for rapid communication of high quality scientific knowledge on inter- and intra-species pathogen transmission, bringing together leading experts in virology, bacteriology, parasitology, mycology, vectors and vector-borne diseases, tropical health, veterinary sciences, pathology, immunology, food safety, mathematical modelling, epidemiology, public health research and emergency preparedness. As a Gold Open Access journal, a fee is payable on acceptance of the paper. Please see the Guide for Authors for more information. Submissions to the following categories are welcome: Virology, Bacteriology, Parasitology, Mycology, Vectors and vector-borne diseases, Co-infections and co-morbidities, Disease spatial surveillance, Modelling, Tropical Health, Discovery, Ecosystem Health, Public Health.