Serological evidence of H9N2 avian influenza virus exposure among poultry workers from Fars province of Iran

Heidari, Alireza; Mancin, Marzia; Nili, Hassan; Pourghanbari, Gholamhosein; Lankarani, Kamran Bagheri; Leardini, Sofia; Cattoli, Giovanni; Monne, Isabella; Piccirillo, Alessandra

doi:10.1186/s12985-016-0472-z

Cited by 30 publications

(36 citation statements)

References 39 publications

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“…The first human infections caused by H9N2 was reported in 1999, Hong Kong. Prevalence of H9N2 in Iran was reported 17%‐18% . These subtypes have repeatedly been isolated from patients in China and Hong Kong .…”

Section: Discussionmentioning

confidence: 99%

Prevalence of influenza A infection in the Middle‐East: A systematic review and meta‐analysis

Moghoofei

Monavari

Mostafaei

et al. 2018

Clinical Respiratory J

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Section: Discussionmentioning

confidence: 99%

Prevalence of influenza A infection in the Middle‐East: A systematic review and meta‐analysis

Moghoofei

Monavari

Mostafaei

et al. 2018

Clinical Respiratory J

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“…In recent years, the prevalence of H9N2 virus was rather constant and the virus repeatedly emerged in the human population (Heidari et al., ; Huang et al., ). The changes in viruses may be the result of the widespread circulation and the lack of adequate surveillance and control programs.…”

Section: Introductionmentioning

confidence: 99%

Global genetic variation and transmission dynamics of H9N2 avian influenza virus

Wei

2017

Transbound Emerg Dis

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The H9N2 influenza viruses are extensively circulating in the poultry population, and variable genotypes can be generated through mutation, recombination and reassortment, which may be better adapted to infect a new host, resist drug treatment or escape immune pressure. The LPAI H9N2 viruses have the potential to evolve towards high levels of virulence in human. Some studies about the regional dispersal were reported, but global dissemination and the drivers of the virus are poorly understood, particularly at the genome scale. Here, we have analysed all eight gene segments of 168 H9N2 genomes sampled randomly aiming to provide a panoramic framework for better understanding the genesis and genetic variation of the viruses, and utilized phylogeography and spatial epidemiology approaches to uncover the effects of the genetic variation, predictors and spread of H9N2 viruses. We found that more frequent reassortment events involve segments PA, NP and NS, and 21 isolates have possible mosaic structure resulting from recombination events. Estimates of gene-specific global dN/dS ratios showed that all genes were subject to purifying selection. However, a total of 13 sites were detected under positive selection by at least two of three methods, which located within segments HA, NA, M2, NS1 and PA. Additionally, we inferred that NA segment has the highest rate of nucleotide substitution, and its tMRCA estimate is the youngest than the remaining segments' inference. About the spatial history, air transportation of human was identified as the predominant driver of global viral migration using GLM analysis, and economic factors and geographical distance were the modest predictors. Higher migration rates were estimated between five pairs of regions (>0.01) indicating the frequent migration of the viruses between discrete geographical locations. Further, our Markov jumps analysis showed that viral migration is more frequent between Southern China and Northern China, and high rate of gene flow was observed between America and East Asia. Moreover, the America together with Southeast Asia acted as the primary hubs of global transmission, forming the trunk of evolutionary tree. These findings suggested a complex interaction between virus evolution, epidemiology and human behaviour.

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“…exposed to infected birds as well as the general population within H7N9 virus-affected regions in China showed overall low seropositivity indicating a low number of transmission events causing subclinical human infections Lin et al, 2016;Liu et al, 2016). In Iran, poultry workers were positive for H9N2 virus while the seroprevalence of nonexposed individuals for both H9N2 strains were significantly lower (Heidari et al, 2016). One study indicated that occupational exposure to chicken flocks was an important risk factor for H9N2 infection (Wang et al, 2014), while others showed seroprevalence estimates against H9 that were significantly higher in live poultry market workers, large-scale poultry farmers and backyard farmers than in poultry slaughtering factory workers and wild bird habitat workers .…”

Section: Handling and Manipulationmentioning

confidence: 99%

Assessment of low pathogenic avian influenza virus transmission via raw poultry meat and raw table eggs

Gonzáles¹,

Roberts²,

Śmietanka³

et al. 2018

EFS2

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A rapid qualitative assessment has been done by performing a theoretical analysis on the transmission of low pathogenic avian influenza (LPAI) via fresh meat from poultry reared or kept in captivity for the production of meat (raw poultry meat) or raw table eggs. A predetermined transmission pathway followed a number of steps from a commercial or non‐commercial poultry establishment within the EU exposed to LPAI virus (LPAIV) to the onward virus transmission to animals and humans. The combined probability of exposure and subsequent LPAIV infection via raw poultry meat containing LPAIV is negligible for commercial poultry and humans exposed via consumption whereas it is very unlikely for non‐commercial poultry, wild birds and humans exposed via handling and manipulation. The probability of LPAIV transmission from an individual infected via raw poultry meat containing LPAIV is negligible for commercial poultry and humans, whereas it is very unlikely for non‐commercial poultry and wild birds. The combined probability of exposure and subsequent LPAIV infection via raw table eggs containing LPAIV is negligible for commercial poultry and humans and extremely unlikely to negligible for non‐commercial poultry and wild birds. The probability of LPAIV transmission from an individual infected via raw table eggs containing LPAIV is negligible for commercial poultry and humans and very unlikely to negligible for non‐commercial poultry and wild birds. Although the presence of LPAIV in raw poultry meat and table eggs is very unlikely to negligible, there is in general a high level of uncertainty on the estimation of the subsequent probabilities of key steps of the transmission pathways for poultry and wild birds, mainly due to the limited number of studies available, for instance on the viral load required to infect a bird via raw poultry meat or raw table eggs containing LPAIV.

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Serological evidence of H9N2 avian influenza virus exposure among poultry workers from Fars province of Iran

Cited by 30 publications

References 39 publications

Prevalence of influenza A infection in the Middle‐East: A systematic review and meta‐analysis

Prevalence of influenza A infection in the Middle‐East: A systematic review and meta‐analysis

Global genetic variation and transmission dynamics of H9N2 avian influenza virus

Assessment of low pathogenic avian influenza virus transmission via raw poultry meat and raw table eggs

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