根据有效繁殖数量评估土耳其 COVID-19 感染的疫苗接种和漏报情况

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-01-12 DOI:10.1142/s1793524523501024
Tuğba Akman, Emek Köse, Necibe Tuncer
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引用次数: 0

摘要

在本文中,我们引入了一个 SEIR 型 COVID-19 模型,该模型将感染类与重症监护室(ICU)和通风室中的患者进一步划分为多个子类。该模型根据土耳其共和国卫生部报告的 2020 年 3 月 11 日至 2020 年 5 月 30 日全国范围封锁期间的 COVID-19 无症状病例、死亡病例以及重症监护室和通风室患者人数进行校准。土耳其的 COVID-19 干预措施被纳入模型,以准确检测疫情的未来趋势。我们测试了漏报的影响,发现疫情峰值因漏报率的不同而有显著差异,但峰值出现的时间保持不变。6 月 1 日解除封锁后,我们对模型进行了修改,加入了随时间变化的传播率,该传播率通过基本繁殖数ℛ0 与有效繁殖数ℛt 相关联。修改后的模型成功捕捉到了疫情的动态变化和峰值。随着 2021 年 1 月 13 日疫苗接种的开始,我们在模型中增加了疫苗接种类别,以研究疫苗接种率和效力的影响。我们发现,接种率是成功消除疾病的一个比疫苗效力更关键的参数。
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Assessment of vaccination and underreporting on COVID-19 infections in Turkey based on effective reproduction number

In this paper, we introduce a SEIR-type COVID-19 model where the infected class is further divided into subclasses with individuals in intensive care (ICUs) and ventilation units. The model is calibrated with the symptomatic COVID-19 cases, deaths, and the number of patients in ICUs and ventilation units as reported by Republic of Turkey, Ministry of Health for the period 11 March 2020 through 30 May 2020 when the nationwide lockdown is in order. COVID-19 interventions in Turkey are incorporated into the model to detect the future trend of the outbreak accurately. We tested the effect of underreporting and we found that the peaks of the disease differ significantly depending on the rate of underreporting, however, the timing of the peaks remains constant. The lockdown is lifted on 1 June, and the model is modified to include a time-dependent transmission rate which is linked to the effective reproduction number t through basic reproduction number 0. The modified model captures the changing dynamics and peaks of the outbreak successfully. With the onset of vaccination on 13 January 2021, we augment the model with the vaccination class to investigate the impact of vaccination rate and efficacy. We observe that vaccination rate is a more critical parameter than the vaccine efficacy to eliminate the disease successfully.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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