Viral Respiratory Infection Clinical Trial
Official title:
Characterization of Respiratory Microbiota in Susceptibility to Viral Respiratory Infections Using Metagenomic and Culturomic Approach
The role of the nasopharyngeal mucosal microbiota has recently been emphasized in respiratory
diseases. The hypothesis that respiratory infections are linked to an imbalance of the
nasopharyngeal microbiota has recently emerged and some studies show a link between the
respiratory microbiota, the susceptibility to viral respiratory infections and the severity
induced. In a preliminary work on the respiratory microbiota from 225 patients and 48
controls, the investigators found a decrease in the richness and biodiversity of the
nasopharyngeal microbiota in patients with a respiratory viral infection as well as an
enrichment of their respiratory flora in pathogenic bacteria.
Interestingly, these recent years, the development of qPCR for virus diagnosis showed a
substantial proportion of asymptomatic carriers of viruses suggesting that the nasopharyngeal
microbiota may play a critical role in the genesis and clinical expression of viral
respiratory infection, challenging Koch's postulate.
The principal objectives of this study are to compare the respiratory microbiota between
symptomatic patients with respiratory viral infection and asymptomatic carrier of virus. The
aim is to determine the existence of respiratory microbiota profiles associated with the
occurrence of viral respiratory infections influencing the clinical expression of virus and
to determine the role of the respiratory microbiota in the occurrence of bacterial
superinfection which will justify an early antibiotic treatment.
The investigators will include 35 symptomatic patients with viral respiratory infection
harboring positive qPCR for respiratory virus (influenza A or B, RSV, rhinovirus,
metapneumovirus), 35 asymptomatic patients with positive qPCR for respiratory virus and 30
healthy subjects (controls). A pharyngeal and a nasal swabs will be performed for each
patient. All the samples will be analyse by culturomics and metagenomic. Culturomic is a
high-throughput culture strategy based on the multiplication of culture conditions coupled
with the rapid identification of bacteria by MALDI-TOF (Matrix-Assisted Laser Desorption /
Ionization-Time-Of-Flight) mass spectrometry.Metagenomics is an high throughput sequencing
and will be performed using Miseq ( Illumina technology) targeting the V3-V4 hypervariable
regions of the 16S RNA gene.
The role of the nasopharyngeal mucosal microbiota has recently been emphasized in respiratory
diseases. The hypothesis that respiratory infections are linked to an imbalance of the
nasopharyngeal microbiota has recently emerged and some studies show a link between the
respiratory microbiota, the susceptibility to viral respiratory infections and the severity
induced. In a preliminary work on the respiratory microbiota from 225 patients and 48
controls, the investigators found a decrease in the richness and biodiversity of the
nasopharyngeal microbiota in patients with a respiratory viral infection as well as an
enrichment of their respiratory flora in pathogenic bacteria.
Interestingly, these recent years, the development of qPCR for virus diagnosis showed a
substantial proportion of asymptomatic carriers of viruses suggesting that the nasopharyngeal
microbiota may play a critical role in the genesis and clinical expression of viral
respiratory infection, challenging Koch's postulate.
The principal objectives of this study are to compare the respiratory microbiota between
symptomatic patients with respiratory viral infection and asymptomatic carrier of virus. The
aim is to determine the existence of respiratory microbiota profiles associated with the
occurrence of viral respiratory infections influencing the clinical expression of virus and
to determine the role of the respiratory microbiota in the occurrence of bacterial
superinfection which will justify an early antibiotic treatment.
The investigators will include 35 symptomatic patients with viral respiratory infection
harboring positive qPCR for respiratory virus (influenza A or B, RSV, rhinovirus,
metapneumovirus), 35 asymptomatic patients with positive qPCR for respiratory virus and 30
healthy subjects (controls). A pharyngeal and a nasal swabs will be performed for each
patient. All the samples will be analyse by culturomics and metagenomic. Culturomic is a
high-throughput culture strategy based on the multiplication of culture conditions coupled
with the rapid identification of bacteria by MALDI-TOF (Matrix-Assisted Laser Desorption /
Ionization-Time-Of-Flight) mass spectrometry.Metagenomics is an high throughput sequencing
and will be performed using Miseq ( Illumina technology) targeting the V3-V4 hypervariable
regions of the 16S RNA gene.
The precise characterization of the respiratory microbiota in patients with viral respiratory
infections is still incomplete. Our work is original because it will combine innovative and
complementary techniques of culturomics and metagenomics for the exhaustive study of the
respiratory microbiota associated with respiratory viral disease.
;
| Status | Clinical Trial | Phase | |
|---|---|---|---|
| Recruiting |
NCT04864899 -
Clinical Significance of Subclinical Myocardial Involvement in Recovered COVID-19 Patients Using Cardiovascular Magnetic Resonance (R-COVID-CMR)
|
N/A | |
| Completed |
NCT04244084 -
Clinical Trial of Efficacy and Safety of ММН-407 in Acute Respiratory Viral Infection
|
Phase 3 | |
| Completed |
NCT04413929 -
Study on Safety and Effectiveness of Ergoferon in the Treatment of Flu / ARVI in Outpatients.
|
||
| Completed |
NCT05030324 -
A Study to Evaluate the Safety, Tolerability and Efficacy of XC221 in Patients With Uncomplicated Influenza or Other Acute Viral Upper Respiratory Infections
|
Phase 2 | |
| Completed |
NCT01806285 -
Sample Collection to Evaluate an Investigational Instrument for the Detection of Respiratory Viruses in Nasopharyngeal Swabs
|
N/A |