Adopting a Statistical, Mechanistic, Integrated Surveillance, Thermal Biology, and Holistic (SMITH) Approach for Arbovirus Control in a Changing Climate: A Review of Evidence

Challenges Pub Date : 2023-01-22 DOI:10.3390/challe14010008
H. Oladipo, Y. Tajudeen, I. Oladunjoye, Sheriff Taye Mustapha, Yusuff Inaolaji Sodiq, Rashidat Onyinoyi Yusuf, O. Egbewande, A. Muili, Taofeekat Oluwatosin Adigun, Emmanuel O. Taiwo, M. El-Sherbini
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Abstract

Arbovirus control depends on accurate projections of likely changes in the arthropod vector species, essential to inform local and global public health authorities. According to the WHO Assembly and the Global Vector Control Response (GVCR), by 2030, the burden of vector-borne diseases, particularly arbovirus infections, is expected to be greatly decreased. However, anthropogenic drivers, including climate change, insecticide resistance, and a lack of operational local databases for risk management of emerging and re-emerging arboviruses, hinders effective implementation plans. This article presents a statistical, mechanistic, integrated surveillance, thermal biology, and holistic framework (termed SMITH) to discuss how temperature variations affect the biological transmission, replication, extrinsic incubation period, nutritional behavior, distribution, and survival (TRENDS) of arboviruses. Future transdisciplinary research that involves knowledge translation between local and global communities is required for early detection and risk management of the growing threat posed by arboviruses for human, animal, and planetary health.
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采用统计、机制、综合监测、热生物学和整体(SMITH)方法在气候变化中控制虫媒病毒:证据综述
虫媒病毒控制取决于对节肢动物媒介物种可能变化的准确预测,这对于向地方和全球公共卫生当局通报情况至关重要。根据世卫组织大会和全球病媒控制应对行动,到2030年,病媒传播疾病,特别是虫媒病毒感染的负担预计将大大减少。然而,人为驱动因素,包括气候变化、杀虫剂耐药性,以及缺乏用于新出现和再出现虫媒病毒风险管理的可操作地方数据库,阻碍了有效的实施计划。本文提出了一个统计、机制、综合监测、热生物学和整体框架(称为SMITH)来讨论温度变化如何影响虫媒病毒的生物传播、复制、外在潜伏期、营养行为、分布和生存(趋势)。未来需要开展涉及地方和全球社区之间知识转化的跨学科研究,以便及早发现和管理虫媒病毒对人类、动物和地球健康构成的日益严重的威胁。
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