Rhinoviruses

Arden, Katherine E.; Mackay, Ian M.

doi:10.1002/9780470015902.a0000431.pub3

Cited by 3 publications

(2 citation statements)

References 75 publications

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“…Mechanical stretch acts as a mechanism of cell activation, and mechanotransduction pathways have been shown to activate pro-inflammatory genes [ 2 ]. Human rhinovirus (HRV) infections are a major cause of asthma exacerbations, and mechanical forces are likely to be more pronounced during asthma exacerbations [ 3 ]. Moreover, smoking is associated with worse clinical outcomes in asthma.…”

Section: Introductionmentioning

confidence: 99%

Cyclic stretch augments human rhinovirus induced inflammatory responses in airway epithelial cells

Nikitenko

Shariff

Arnason

et al. 2014

All Asth Clin Immun

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Section: Introductionmentioning

confidence: 99%

Cyclic stretch augments human rhinovirus induced inflammatory responses in airway epithelial cells

Nikitenko

Shariff

Arnason

et al. 2014

All Asth Clin Immun

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“…Thus, carefully conducted longitudinal studies of otherwise-healthy infants are necessary to further understand the types of illnesses, including the shedding characteristics, associated with these viruses. positions compared to RV-C (Arden and Mackay, 2011;Gama et al, 1989; and in all species the ORF is bracketed by two untranslated regions (UTR). The 5`UTR comprises approximately 650 nucleotides and starts with a small viral protein (VPg) that serves as a primer for the genome replication.…”

Section: Introductionmentioning

confidence: 99%

Respitatory virus infections during the first year of life a longitudinal community-based dynamic birth cohort study

Alsaleh¹

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Background: Viral acute respiratory infections (ARIs) are the commonest illnesses experienced by all age groups, especially in infants where infection rates are highest. Nevertheless, during the molecular era, outside of hospital-based studies, little is known about the current aetiology and community burden of viral ARIs in infants and young children. The observational research in childhood infectious disease (ORChID) project is a prospective community-based birth-cohort study of healthy Australian infants and children. It began in 2010 to investigate respiratory virus infections until two-years of age. My PhD established laboratory quality control techniques for studies of this nature and describes the respiratory viruses and molecular epidemiology of human rhinoviruses (RV) during the first year of life in a nested subgroup of this cohort. The hypotheses were: (i) During the first year of life and in otherwise healthy infants, RV is the most commonly detected respiratory virus in respiratory secretions. (ii) Various factors impact upon successful viral detection, including the ability of parents to collect appropriate samples and other laboratory-based technical issues. (iii) Repeated detection of RV-RNA in respiratory secretions over periods of more than 4-weeks results from genotype replacement and new infection events rather than from prolonged shedding of the same genotype. (iv) Many RV genotypes circulate in a single location in 1 year period. Methods The ongoing ORChID study completed sample collection at the end of 2014. Parents were approached antenatally and asked to collect weekly anterior nasal swabs from the time of their child's birth until their second birthday. Swabs were mailed to the laboratory where they were stored at-80ºC until analysis. Parents also completed a daily symptom diary, which was submitted monthly. My PhD focused on samples collected from an infant subgroup within this cohort and the first two-years of the ORChID study. Samples were extracted using an automated robotic system after spiking each sample with equid herpes virus (EHV-1). The extraction quality and presence of human DNA in extracts were assessed by real-time PCR for EHV-1 and endogenous retrovirus 3 (ERV-3) respectively. Respiratory virus

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Rhinoviruses

Mackay

Arden

2014

Viral Infections of Humans

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Rhinoviruses

Cited by 3 publications

References 75 publications

Cyclic stretch augments human rhinovirus induced inflammatory responses in airway epithelial cells

Cyclic stretch augments human rhinovirus induced inflammatory responses in airway epithelial cells

Respitatory virus infections during the first year of life a longitudinal community-based dynamic birth cohort study

Rhinoviruses

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