Impact of Subgroup Distribution on Seasonality of Human Respiratory Syncytial Virus: A Global Systematic Analysis

Shuyu Deng; Ling Guo; Cheryl Cohen; Adam Meijer; Jocelyn Moyes; Siripat Pasittungkul; Yong Poovorawan; Anne Teirlinck; Michiel van Boven; Nasamon Wanlapakorn; Nicole Wolter; John Paget; Harish Nair; You Li; Louis Bont

doi:10.1093/infdis/jiad192

Impact of Subgroup Distribution on Seasonality of Human Respiratory Syncytial Virus: A Global Systematic Analysis

Shuyu Deng, Ling Guo, Cheryl Cohen, Adam Meijer, Jocelyn Moyes, Siripat Pasittungkul, Yong Poovorawan, Anne Teirlinck, Michiel van Boven, Nasamon Wanlapakorn, Nicole Wolter, John Paget, Harish Nair^*, You Li^*, Louis Bont,

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Background. Previous studies reported inconsistent findings regarding the association between respiratory syncytial virus (RSV) subgroup distribution and timing of RSV season. We aimed to further understand the association by conducting a global-level systematic analysis. Methods. We compiled published data on RSV seasonality through a systematic literature review, and unpublished data shared by international collaborators. Using annual cumulative proportion (ACP) of RSV-positive cases, we defined RSV season onset and offset as ACP reaching 10% and 90%, respectively. Linear regression models accounting for meteorological factors were constructed to analyze the association of proportion of RSV-A with the corresponding RSV season onset and offset. Results. We included 36 study sites from 20 countries, providing data for 179 study-years in 1995–2019. Globally, RSV subgroup distribution was not significantly associated with RSV season onset or offset globally, except for RSV season offset in the tropics in 1 model, possibly by chance. Models that included RSV subgroup distribution and meteorological factors explained only 2%–4% of the variations in timing of RSV season. Conclusions. Year-on-year variations in RSV season onset and offset are not well explained by RSV subgroup distribution or meteorological factors. Factors including population susceptibility, mobility, and viral interference should be examined in future studies.

Original language	English
Pages (from-to)	S25-S33
Journal	Journal of Infectious Diseases
Volume	229
DOIs	https://doi.org/10.1093/infdis/jiad192
Publication status	Published - 15 Mar 2024

Keywords

meteorological factors
respiratory syncytial virus
seasonality
subgroup

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10.1093/infdis/jiad192

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Deng, S., Guo, L., Cohen, C., Meijer, A., Moyes, J., Pasittungkul, S., Poovorawan, Y., Teirlinck, A., van Boven, M., Wanlapakorn, N., Wolter, N., Paget, J., Nair, H., Li, Y., Bont, L. (2024). Impact of Subgroup Distribution on Seasonality of Human Respiratory Syncytial Virus: A Global Systematic Analysis. Journal of Infectious Diseases, 229, S25-S33. https://doi.org/10.1093/infdis/jiad192

@article{5a3b9027255a4e01a87909157f441025,

title = "Impact of Subgroup Distribution on Seasonality of Human Respiratory Syncytial Virus: A Global Systematic Analysis",

abstract = "Background. Previous studies reported inconsistent findings regarding the association between respiratory syncytial virus (RSV) subgroup distribution and timing of RSV season. We aimed to further understand the association by conducting a global-level systematic analysis. Methods. We compiled published data on RSV seasonality through a systematic literature review, and unpublished data shared by international collaborators. Using annual cumulative proportion (ACP) of RSV-positive cases, we defined RSV season onset and offset as ACP reaching 10% and 90%, respectively. Linear regression models accounting for meteorological factors were constructed to analyze the association of proportion of RSV-A with the corresponding RSV season onset and offset. Results. We included 36 study sites from 20 countries, providing data for 179 study-years in 1995–2019. Globally, RSV subgroup distribution was not significantly associated with RSV season onset or offset globally, except for RSV season offset in the tropics in 1 model, possibly by chance. Models that included RSV subgroup distribution and meteorological factors explained only 2%–4% of the variations in timing of RSV season. Conclusions. Year-on-year variations in RSV season onset and offset are not well explained by RSV subgroup distribution or meteorological factors. Factors including population susceptibility, mobility, and viral interference should be examined in future studies.",

keywords = "meteorological factors, respiratory syncytial virus, seasonality, subgroup",

author = "Shuyu Deng and Ling Guo and Cheryl Cohen and Adam Meijer and Jocelyn Moyes and Siripat Pasittungkul and Yong Poovorawan and Anne Teirlinck and {van Boven}, Michiel and Nasamon Wanlapakorn and Nicole Wolter and John Paget and Harish Nair and You Li and {von Gottberg}, Anne and Jeroen Aerssens and Gabriela Ispas and Bahar Ahani and Jessica Atwell and Elizabeth Begier and Htar, {Tin Tin} and Mathieu Bangert and Rolf Kramer and Charlotte Vernhes and Philippe Beutels and Louis Bont and Harry Campbell and Richard Osei-Yeboah and Xin Wang and Rachel Cohen and {Dos Santos}, Gael and Theo Last and Veena Kumar and Nuria Machin and Hanna Nohynek and Peter Openshaw and Andrew Pollard",

year = "2024",

month = mar,

day = "15",

doi = "10.1093/infdis/jiad192",

language = "English",

volume = "229",

pages = "S25--S33",

journal = "Journal of Infectious Diseases",

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Deng, S, Guo, L, Cohen, C, Meijer, A, Moyes, J, Pasittungkul, S, Poovorawan, Y, Teirlinck, A, van Boven, M, Wanlapakorn, N, Wolter, N, Paget, J, Nair, H, Li, Y, Bont, L 2024, 'Impact of Subgroup Distribution on Seasonality of Human Respiratory Syncytial Virus: A Global Systematic Analysis', Journal of Infectious Diseases, vol. 229, pp. S25-S33. https://doi.org/10.1093/infdis/jiad192

TY - JOUR

T1 - Impact of Subgroup Distribution on Seasonality of Human Respiratory Syncytial Virus

T2 - A Global Systematic Analysis

AU - Deng, Shuyu

AU - Guo, Ling

AU - Cohen, Cheryl

AU - Meijer, Adam

AU - Moyes, Jocelyn

AU - Pasittungkul, Siripat

AU - Poovorawan, Yong

AU - Teirlinck, Anne

AU - van Boven, Michiel

AU - Wanlapakorn, Nasamon

AU - Wolter, Nicole

AU - Paget, John

AU - Nair, Harish

AU - Li, You

AU - von Gottberg, Anne

AU - Aerssens, Jeroen

AU - Ispas, Gabriela

AU - Ahani, Bahar

AU - Atwell, Jessica

AU - Begier, Elizabeth

AU - Htar, Tin Tin

AU - Bangert, Mathieu

AU - Kramer, Rolf

AU - Vernhes, Charlotte

AU - Beutels, Philippe

AU - Bont, Louis

AU - Campbell, Harry

AU - Osei-Yeboah, Richard

AU - Wang, Xin

AU - Cohen, Rachel

AU - Dos Santos, Gael

AU - Last, Theo

AU - Kumar, Veena

AU - Machin, Nuria

AU - Nohynek, Hanna

AU - Openshaw, Peter

AU - Pollard, Andrew

PY - 2024/3/15

Y1 - 2024/3/15

N2 - Background. Previous studies reported inconsistent findings regarding the association between respiratory syncytial virus (RSV) subgroup distribution and timing of RSV season. We aimed to further understand the association by conducting a global-level systematic analysis. Methods. We compiled published data on RSV seasonality through a systematic literature review, and unpublished data shared by international collaborators. Using annual cumulative proportion (ACP) of RSV-positive cases, we defined RSV season onset and offset as ACP reaching 10% and 90%, respectively. Linear regression models accounting for meteorological factors were constructed to analyze the association of proportion of RSV-A with the corresponding RSV season onset and offset. Results. We included 36 study sites from 20 countries, providing data for 179 study-years in 1995–2019. Globally, RSV subgroup distribution was not significantly associated with RSV season onset or offset globally, except for RSV season offset in the tropics in 1 model, possibly by chance. Models that included RSV subgroup distribution and meteorological factors explained only 2%–4% of the variations in timing of RSV season. Conclusions. Year-on-year variations in RSV season onset and offset are not well explained by RSV subgroup distribution or meteorological factors. Factors including population susceptibility, mobility, and viral interference should be examined in future studies.

AB - Background. Previous studies reported inconsistent findings regarding the association between respiratory syncytial virus (RSV) subgroup distribution and timing of RSV season. We aimed to further understand the association by conducting a global-level systematic analysis. Methods. We compiled published data on RSV seasonality through a systematic literature review, and unpublished data shared by international collaborators. Using annual cumulative proportion (ACP) of RSV-positive cases, we defined RSV season onset and offset as ACP reaching 10% and 90%, respectively. Linear regression models accounting for meteorological factors were constructed to analyze the association of proportion of RSV-A with the corresponding RSV season onset and offset. Results. We included 36 study sites from 20 countries, providing data for 179 study-years in 1995–2019. Globally, RSV subgroup distribution was not significantly associated with RSV season onset or offset globally, except for RSV season offset in the tropics in 1 model, possibly by chance. Models that included RSV subgroup distribution and meteorological factors explained only 2%–4% of the variations in timing of RSV season. Conclusions. Year-on-year variations in RSV season onset and offset are not well explained by RSV subgroup distribution or meteorological factors. Factors including population susceptibility, mobility, and viral interference should be examined in future studies.

KW - meteorological factors

KW - respiratory syncytial virus

KW - seasonality

KW - subgroup

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U2 - 10.1093/infdis/jiad192

DO - 10.1093/infdis/jiad192

M3 - Article

C2 - 37249267

AN - SCOPUS:85186430553

SN - 0022-1899

VL - 229

SP - S25-S33

JO - Journal of Infectious Diseases

JF - Journal of Infectious Diseases

ER -

Impact of Subgroup Distribution on Seasonality of Human Respiratory Syncytial Virus: A Global Systematic Analysis

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