环境因素和基因组多样性对中国高原地区 COVID-19 累计病例的影响:比较相关性研究。

IF 1.9 Q3 MEDICINE, RESEARCH & EXPERIMENTAL Interactive Journal of Medical Research Pub Date : 2024-03-25 DOI:10.2196/43585
Zhuoga Deji, Yuantao Tong, Honglian Huang, Zeyu Zhang, Meng Fang, M James C Crabbe, Xiaoyan Zhang, Ying Wang
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引用次数: 0

摘要

背景:新型冠状病毒 SARS-CoV-2 引发了全球 COVID-19 大流行。新的报告显示,高原地区的死亡率较低,病例数减少;然而,迄今为止,尚未就环境因素和病毒基因多样性对 COVID-19 感染率的累积影响进行比较研究:本研究旨在确定 COVID-19 在高海拔和低海拔地区感染率的差异,并探讨中国高海拔地区与低海拔地区流行趋势的差异是否受环境因素、人口密度和生物机制的影响:方法:我们通过线性回归研究了人口密度与 COVID-19 病例之间的相关性。方法:我们通过线性回归研究了人口密度与COVID-19病例之间的相关性,并应用零点模型确定了与COVID-19感染相关的可能因素。我们使用斯皮尔曼相关系数进一步分析了气象和空气质量因素与感染病例的相关性。混合效应多元线性回归用于评估选定因素与 COVID-19 感染病例之间的相关性,并对协变量进行调整。最后,利用上述相关技术评估了环境因素与变异频率之间的关系:结果:2020年1月23日至2022年7月7日,中国40个城市报告的24826例COVID-19确诊病例中,98.4%(n=24430)的病例发生在低洼地区。所有地区的人口密度与COVID-19病例数均呈正相关(ρ=0.641,P=.003)。在高海拔地区,COVID-19病例数与温度、日照时间和紫外线指数呈负相关(分别为P=.003、P=.001和P=.009),与风速呈正相关(ρ=0.388,P0.1)。关键的非同义突变与海拔、风速和气压呈正相关,与温度、紫外线指数和日照时数呈负相关:与低地相比,中国高海拔地区的 COVID-19 确诊病例数大幅减少,而人口密度、气温、日照时数、紫外线指数、风速、PM2.5 和 CO 均影响着高原地区的累积流行趋势。环境因素对SARS-CoV-2序列变异的影响增加了人们对海拔高度对COVID-19感染影响的认识,为预防干预提供了新的建议。
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Influence of Environmental Factors and Genome Diversity on Cumulative COVID-19 Cases in the Highland Region of China: Comparative Correlational Study.

Background: The novel coronavirus SARS-CoV-2 caused the global COVID-19 pandemic. Emerging reports support lower mortality and reduced case numbers in highland areas; however, comparative studies on the cumulative impact of environmental factors and viral genetic diversity on COVID-19 infection rates have not been performed to date.

Objective: The aims of this study were to determine the difference in COVID-19 infection rates between high and low altitudes, and to explore whether the difference in the pandemic trend in the high-altitude region of China compared to that of the lowlands is influenced by environmental factors, population density, and biological mechanisms.

Methods: We examined the correlation between population density and COVID-19 cases through linear regression. A zero-shot model was applied to identify possible factors correlated to COVID-19 infection. We further analyzed the correlation of meteorological and air quality factors with infection cases using the Spearman correlation coefficient. Mixed-effects multiple linear regression was applied to evaluate the associations between selected factors and COVID-19 cases adjusting for covariates. Lastly, the relationship between environmental factors and mutation frequency was evaluated using the same correlation techniques mentioned above.

Results: Among the 24,826 confirmed COVID-19 cases reported from 40 cities in China from January 23, 2020, to July 7, 2022, 98.4% (n=24,430) were found in the lowlands. Population density was positively correlated with COVID-19 cases in all regions (ρ=0.641, P=.003). In high-altitude areas, the number of COVID-19 cases was negatively associated with temperature, sunlight hours, and UV index (P=.003, P=.001, and P=.009, respectively) and was positively associated with wind speed (ρ=0.388, P<.001), whereas no correlation was found between meteorological factors and COVID-19 cases in the lowlands. After controlling for covariates, the mixed-effects model also showed positive associations of fine particulate matter (PM2.5) and carbon monoxide (CO) with COVID-19 cases (P=.002 and P<.001, respectively). Sequence variant analysis showed lower genetic diversity among nucleotides for each SARS-CoV-2 genome (P<.001) and three open reading frames (P<.001) in high altitudes compared to 300 sequences analyzed from low altitudes. Moreover, the frequencies of 44 nonsynonymous mutations and 32 synonymous mutations were significantly different between the high- and low-altitude groups (P<.001, mutation frequency>0.1). Key nonsynonymous mutations showed positive correlations with altitude, wind speed, and air pressure and showed negative correlations with temperature, UV index, and sunlight hours.

Conclusions: By comparison with the lowlands, the number of confirmed COVID-19 cases was substantially lower in high-altitude regions of China, and the population density, temperature, sunlight hours, UV index, wind speed, PM2.5, and CO influenced the cumulative pandemic trend in the highlands. The identified influence of environmental factors on SARS-CoV-2 sequence variants adds knowledge of the impact of altitude on COVID-19 infection, offering novel suggestions for preventive intervention.

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来源期刊
Interactive Journal of Medical Research
Interactive Journal of Medical Research MEDICINE, RESEARCH & EXPERIMENTAL-
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0.00%
发文量
45
审稿时长
12 weeks
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