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National Institute of Environmental Health Sciences

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Your Environment. Your Health.

Publication Detail

Title: Persistence of poliovirus types 2 and 3 in waste-impacted water and sediment.

Authors: Kline, Allison; Dean, Kara; Kossik, Alexandra L; Harrison, Joanna Ciol; Januch, James D; Beck, Nicola K; Zhou, Nicolette A; Shirai, Jeffry H; Boyle, David S; Mitchell, Jade; Meschke, John Scott

Published In PLoS One, (2022)

Abstract: Eradication of poliovirus (PV) is a global public health priority, and as clinical cases decrease, the role of environmental surveillance becomes more important. Persistence of PV and the environmental factors that influence it (such as temperature and sample type) are an important part of understanding and interpreting positive environmental surveillance samples. The objective of this study was to evaluate the persistence of poliovirus type 2 (PV2) and type 3 (PV3) in wastewater and sediment. Microcosms containing either 1) influent wastewater or 2) influent wastewater with a sediment matrix were seeded with either PV2 or PV3, and stored for up to 126 days at three temperatures (4°C, room temperature [RT], and 30°C). Active PV in the liquid of (1), and the sediment and liquid portions of (2) were sampled and quantified at up to 10 time points via plaque assay and RT-qPCR. A suite of 17 models were tested for best fit to characterize decay of PV2 and PV3 over time and determine the time points at which >90% (T90) and >99% (T99) reduction was reached. Linear models assessed the influence of experimental factors (matrix, temperature, virus type and method of detection) on the predicted T90 and T99 values. Results showed that when T90 was the dependent variable, virus type, matrix, and temperature significantly affected decay, and there was a clear interaction between the sediment matrix and temperature. When T99 was the dependent variable, only temperature and matrix type significantly influenced the decay metric. This study characterizes the persistence of both active and molecular PV2 and PV3 in relevant environmental conditions, and demonstrates that temperature and sediment both play important roles in PV viability. As eradication nears and clinical cases decrease, environmental surveillance and knowledge of PV persistence will play a key role in understanding the silent circulation in endemic countries.

PubMed ID: 35081146 Exiting the NIEHS site

MeSH Terms: Environmental Monitoring*; Geologic Sediments/virology*; Poliovirus/isolation & purification*; Wastewater/virology*

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