Precognition of Known And Unknown Biothreats: A Risk-Based Approach.

IF 1.8 4区 医学 Q3 INFECTIOUS DISEASES
Romelito L Lapitan
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引用次数: 0

Abstract

Data mining and artificial intelligence algorithms can estimate the probability of future occurrences with defined precision. Yet, the prediction of infectious disease outbreaks remains a complex and difficult task. This is demonstrated by the limited accuracy and sensitivity of current models in predicting the emergence of previously unknown pathogens such as Zika, Chikungunya, and SARS-CoV-2, and the resurgence of Mpox, along with their impacts on global health, trade, and security. Comprehensive analysis of infectious disease risk profiles, vulnerabilities, and mitigation capacities, along with their spatiotemporal dynamics at the international level, is essential for preventing their transnational propagation. However, annual indexes about the impact of infectious diseases provide a low level of granularity to allow stakeholders to craft better mitigation strategies. A quantitative risk assessment by analytical platforms requires billions of near real-time data points from heterogeneous sources, integrating and analyzing univariable or multivariable data with different levels of complexity and latency that, in most cases, overwhelm human cognitive capabilities. Autonomous biosurveillance can open the possibility for near real-time, risk- and evidence-based policymaking and operational decision support.

预知已知和未知生物威胁:基于风险的方法。
数据挖掘和人工智能算法可以精确地估计未来发生的概率。然而,预测传染病爆发仍然是一项复杂而艰巨的任务。目前的模型在预测寨卡、基孔肯雅、SARS-CoV-2 等以前未知病原体的出现和麻疹腮腺炎的复发及其对全球健康、贸易和安全的影响方面的准确性和灵敏度有限,就证明了这一点。全面分析传染病的风险概况、脆弱性和缓解能力,以及它们在国际层面的时空动态,对于防止传染病的跨国传播至关重要。然而,有关传染病影响的年度指数颗粒度较低,无法让利益相关者制定出更好的缓解战略。分析平台的定量风险评估需要来自不同来源的数十亿个近乎实时的数据点,整合并分析具有不同复杂程度和延迟的单变量或多变量数据,在大多数情况下,这些数据会超出人类的认知能力。自主生物监测可为近实时、基于风险和证据的决策和业务决策支持提供可能性。
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
CiteScore
4.70
自引率
4.80%
发文量
73
审稿时长
3-8 weeks
期刊介绍: Vector-Borne and Zoonotic Diseases is an authoritative, peer-reviewed journal providing basic and applied research on diseases transmitted to humans by invertebrate vectors or non-human vertebrates. The Journal examines geographic, seasonal, and other risk factors that influence the transmission, diagnosis, management, and prevention of this group of infectious diseases, and identifies global trends that have the potential to result in major epidemics. Vector-Borne and Zoonotic Diseases coverage includes: -Ecology -Entomology -Epidemiology -Infectious diseases -Microbiology -Parasitology -Pathology -Public health -Tropical medicine -Wildlife biology -Bacterial, rickettsial, viral, and parasitic zoonoses
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