The clinical presentations of the virus range from asymptomatic, mild respiratory tract infections to severe cases with acute respiratory distress syndrome, respiratory failure, and death. Reports of a dysregulated immune system in severe cases calls for a comprehensive characterization and understanding of the changes in the immune system. In a recently published article, a group of researchers provide evidence for the use of whole blood transcriptomics to distinguish COVID-19 from other infections, and also to monitor and potentially predict disease outcomes. The study assists in dissecting molecular phenotypes and stratifying COVID-19 patients, along with supporting drug target prediction for specific subgroups of patients. In their study, the researchers used PAXgene Blood RNA Tubes to collect and stabilize whole blood RNA from donors, with RNA extraction using the PAXgene Blood miRNA Kit.
Early and accurate identification of individuals with viral infections is crucial for clinical management and public health interventions. A team of Duke University health scientists have published an article identifying biomarkers that classify numerous viral infections across the clinical stages of disease. The research exhibits a potential new way to guide treatment, quarantine decisions, and other clinical and public health interventions in the setting of endemic and pandemic infectious diseases. The blood-based test uses a gene expression assay to correctly predict nine different respiratory viral infections – including influenza, enterovirus, adenovirus and coronaviruses known to cause common colds. It shows the body's genes responding to a pathogen before symptoms are present. In their research for detection of transcriptomic responses, they collected peripheral blood in PAXgene Blood RNA Tubes, and extracted total RNA using the PAXgene Blood miRNA Kit.
The pandemic spread of the potentially life-threatening disease COVID-19 requires a thorough understanding of the longitudinal dynamics of host responses. Understanding the basis for temporal resolution of cellular features associated with a severe disease trajectory will be a pre-requisite for finding disease outcome predictors. A group of scientists performed studies that demonstrated broad cellular effects of SARS-CoV-2 infection beyond classical immune cells and may serve as an entry point to develop biomarkers and targeted treatments of patients with COVID-19. The researchers collected blood in PAXgene Blood RNA Tubes, and extracted total RNA using the PAXgene Blood miRNA Kit.
* The PAXgene Blood RNA System is available for in vitro diagnostic (IVD) use only when the PAXgene Blood RNA Tube (Cat. No. 762165) is used in combination with the PAXgene Blood RNA Kit (Cat. No. 762164 or 762174). The PAXgene Blood miRNA Kit is available for research use only (RUO) (Cat. No. 763134).
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