Scientific Reports (Jun 2023)

Dengue virus infection during window period of consecutive outbreaks in Nepal and assessment of clinical parameters

  • Ramanuj Rauniyar,
  • Sabita Prajapati,
  • Binod Manandhar,
  • Anup Bastola,
  • Bimal Sharma Chalise,
  • Srijan Shrestha,
  • Chetana Khanal,
  • Machchhendra Thapa,
  • Rajindra Napit,
  • Anup Muni Bajracharya,
  • Shova Shrestha,
  • Anurag Adhikari,
  • Krishna Das Manandhar

DOI
https://doi.org/10.1038/s41598-023-35928-5
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 11

Abstract

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Abstract Nepal is an endemic country for dengue infection with rolling of every 3 year’s clear cyclic outbreaks with exponential growth since 2019 outbreak and the virus gearing towards the non-foci temperate hill regions. However, the information regarding circulating serotype and genotype is not frequent. This research discusses on the clinical features, diagnosis, epidemiology, circulating serotype and genotype among 61 dengue suspected cases from different hospitals of Nepal during the window period 2017–2018 between the two outbreaks of 2016 and 2019. E-gene sequences from PCR positive samples were subjected to phylogenetic analysis under time to most recent common ancestor tree using Markov Chain Monte Carlo (MCMC) and BEAST v2.5.1. Both evolution and genotypes were determined based on the phylogenetic tree. Serotyping by Real-time PCR and Nested PCR showed the co-circulation of all the 3 serotypes of dengue in the year 2017 and only DENV-2 in 2018. Genotype V for DENV-1 and Cosmopolitan Genotype IVa for DENV-2 were detected. The detected Genotype V of DENV-1 in Terai was found close to Indian genotype while Cosmopolitan IVa of DENV-2 found spreading to geographically safe hilly region (now gripped to 9 districts) was close to South-East Asia. The genetic drift of DENV-2 is probably due to climate change and rapid viral evolution which could be a representative model for high altitude shift of the infection. Further, the increased primary infection indicates dengue venturing to new populations. Platelets count together with Aspartate transaminase and Aalanine transaminase could serve as important clinical markers to support clinical diagnosis. The study will support future dengue virology and epidemiology in Nepal.