Impact of Climatic Fluctuation on Dengue Virus Etiology

Journal of molecular and genetic medicine : an international journal of biomedical research Pub Date : 2018-03-09 DOI:10.4172/1747-0862.1000331

K. Tilwani, G. Dave, Nadurbarkar

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引用次数: 3

Abstract

Aedes mosquito-body is the favored habitat for the member of Flaiviridae, the most famous member of the family, formerly known as Dengue virus (DENV). Dengue virus infection induces high fever in human and responsible for associated symptoms like skin rashes. In literature, it has been noted that the onset of dengue fever usually occurs in monsoon and winter seasons, which gradually declines with onset of summer. This season-coordinated trend has suggested positive association towards the climate and proliferation of Dengue virus. To investigate this hypothesis, this study has been proposed. In this study, the date-wise data for Dengue positive cases were obtained from the Government hospitals across Gujarat region. The data were further correlated with the climatic parameters for that date. The investigation suggests the strong correlation between climatic fluctuations. The correlation analysis of obtain data suggests the fluctuations in relative humidity, temperature and pressure during day and night has strong impact. We proposed Poisson regression model and Negative Binomial model for prediction.

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气候变化对登革热病毒病原学的影响

伊蚊的身体是黄病毒科成员最喜欢的栖息地，黄病毒科是该科最著名的成员，以前被称为登革热病毒（DENV）。登革热病毒感染会引起人类高烧，并引起皮疹等相关症状。在文献中，人们注意到登革热的发病通常发生在季风和冬季，随着夏季的到来，登革热的发病率逐渐下降。这种季节协调的趋势表明，登革热病毒与气候和扩散之间存在积极联系。为了研究这一假设，提出了这项研究。在这项研究中，登革热阳性病例的日期数据是从古吉拉特邦地区的政府医院获得的。这些数据进一步与该日期的气候参数相关联。调查表明，气候波动之间有很强的相关性。对获得的数据进行相关性分析表明，昼夜相对湿度、温度和压力的波动具有较强的影响。我们提出了泊松回归模型和负二项式模型进行预测。

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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Journal of molecular and genetic medicine : an international journal of biomedical research

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