Francesco Cerutti scite author profile

At the time of writing, FIND has listed four CE-marked SARSCoV-2 antigen tests. We evaluated the recently CE-approved rapid POCT SD-Biosensor for SARS-CoV-2 nucleoprotein detection in nasopharyngeal secretions from 330 patients admitted to the Emergency Room for a suspect of COVID-19 and travelers returning home from high risk countries. Sensitivity, specificity, accuracy, negative and predictive values were consistent with the use of the test to mass-screening for SARS-CoV-2 surveillance.

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Culex Flavivirus and West Nile Virus Mosquito Coinfection and Positive Ecological Association in Chicago, United States

Newman

Cerutti

Anderson

et al. 2011

Vector-Borne and Zoonotic Diseases

114

104

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Culex flavivirus (CxFV) is an insect-specific flavivirus globally distributed in mosquitoes of the genus Culex. CxFV was positively associated with West Nile virus (WNV) infection in a case-control study of 268 mosquito pools from an endemic focus of WNV transmission in Chicago, United States. Specifically, WNV-positive Culex mosquito pools were four times more likely also to be infected with CxFV than were spatiotemporally matched WNV-negative pools. In addition, mosquito pools from residential sites characterized by dense housing and impermeable surfaces were more likely to be infected with CxFV than were pools from nearby urban green spaces. Further, 6/15 (40%) WNV-positive individual mosquitoes were also CxFV positive, demonstrating that both viruses can coinfect mosquitoes in nature. Phylogenetic analysis of CxFV from Chicago demonstrated a pattern similar to WNV, consisting of low global viral diversity and lack of geographic clustering. These results illustrate a positive ecological association between CxFV and WNV, and that coinfection of individual mosquitoes can occur naturally in areas of high flaviviral transmission. These conclusions represent a challenge to the hypothesis of super-infection exclusion in the CxFV/WNV system, whereby an established infection with one virus may interfere with secondary viral infection with a similar virus. This study suggests that infection with insect-specific flaviviruses such as CxFV may not exclude secondary infection with genetically distinct flaviviruses such as WNV, and that both viruses can naturally coinfect mosquitoes that are epidemic bridge vectors of WNV to humans.

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Diagnostic SARS-CoV-2 Cycle Threshold Value Predicts Disease Severity, Survival, and Six-Month Sequelae in COVID-19 Symptomatic Patients

Trunfio

Venuti

Alladio

et al. 2021

Viruses

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To date, there is no severe acute respiratory syndrome coronavirus 2- (SARS-CoV-2)-specific prognostic biomarker available. We assessed whether SARS-CoV-2 cycle threshold (Ct) value at diagnosis could predict novel CoronaVirus Disease 2019 (COVID-19) severity, clinical manifestations, and six-month sequelae. Hospitalized and outpatient cases were randomly sampled from the diagnoses of March 2020 and data collected at 6 months by interview and from the regional database for COVID-19 emergency. Patients were stratified according to their RNA-dependent-RNA-polymerase Ct in the nasopharyngeal swab at diagnosis as follows: Group A ≤20.0, 20.0< group B ≤28.0, and Group C >28.0. Disease severity was classified according to a composite scale evaluating hospital admission, worst oxygen support required, and survival. Two hundred patients were included, 27.5% in Groups A and B both, 45.0% in Group C; 90% of patients were symptomatic and 63.7% were hospitalized. The median time from COVID-19 onset to swab collection was five days. Lethality, disease severity, type, and number of signs and symptoms, as well as six-month sequelae distributed inversely among the groups with respect to SARS-CoV-2 Ct. After controlling for confounding, SARS-CoV-2 Ct at diagnosis was still associated with COVID-19-related death (p = 0.023), disease severity (p = 0.023), number of signs and symptoms (p < 0.01), and presence of six-month sequelae (p < 0.01). Early quantification of SARS-CoV-2 may be a useful predictive marker to inform differential strategies of clinical management and resource allocation.

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Characterization of the upper and lower respiratory tract microbiota in Piedmontese calves

et al. 2017

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BackgroundThe microbiota of the bovine upper respiratory tract has been recently characterized, but no data for the lower respiratory tract are available. A major health problem in bovine medicine is infectious bronchopneumonia, the most common respiratory syndrome affecting cattle. With this study, we used 16S rRNA gene sequencing to characterize and compare the microbial community composition of the upper and lower respiratory tracts in calves.ResultsThe microbiota of the upper (nasal swab [NS]) and the lower (trans-tracheal aspiration [TTA]) respiratory tracts of 19 post-weaned Piedmontese calves with (8/19) and without (11/19) clinical signs of respiratory disease, coming from six different farms, was characterized by 16S rRNA gene metabarcoding. A total of 29 phyla (29 in NS, 21 in TTA) and 305 genera (289 in NS, 182 in TTA) were identified. Mycoplasma (60.8%) was the most abundant genus identified in both the NS (27.3%) and TTA (76.7%) samples, followed by Moraxella (16.6%) in the NS and Pasteurella (7.3%) in the TTA samples. Pasteurella multocida (7.3% of total operational taxonomic units [OTUs]) was the most abundant species in the TTA and Psychrobacter sanguinis (1.1% of total OTUs) in the NS samples. Statistically significant differences between the NS and the TTA samples were found for both alpha (Shannon index, observed species, Chao1 index, and Simpson index; P = 0.001) and beta (Adonis; P = 0.001) diversity. Comparison of the NS and TTA samples by farm origin and clinical signs revealed no statistical difference (P > 0.05), except for farm origin for the NS samples when compared by the unweighted UniFrac metric (P = 0.05).ConclusionsUsing 16S rRNA gene sequencing, we characterized the microbiota of the upper and lower respiratory tracts of calves, both healthy individuals and those with clinical signs of respiratory disease. Our results suggest that environmental factors may influence the composition of the upper airway microbiota in cattle. While the two microbial communities (upper and lower airways) differed in microbial composition, they shared several OTUs, suggesting that the lung microbiota may be a self-sustaining, more homogeneous ecosystem, influenced by the upper respiratory tract microbiota.Electronic supplementary materialThe online version of this article (10.1186/s40168-017-0372-5) contains supplementary material, which is available to authorized users.

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COBAS AmpliPrep-COBAS TaqMan Hepatitis B Virus (HBV) Test: a Novel Automated Real-Time PCR Assay for Quantification of HBV DNA in Plasma

et al. 2007

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Hepatitis B virus (HBV) infection is a major cause of chronic liver disease. It is estimated that nearly 2 billion people are infected worldwide by HBV and that more than 350 million have persistent and chronic infection (38). HBV carriers have a high risk of developing long-term sequelae of hepatitis B, including cirrhosis and hepatocellular carcinoma that, in countries such as Italy with a moderate prevalence of HBV infection, account for nearly 25% of the indications for liver transplantation in reference centers (29). Recent advances in antiviral therapy, based on the development of new and more powerful nucleos(t)ide analogues, have dramatically improved chronic hepatitis B management, including the prevention of allograft reinfection in those patients undergoing liver transplantation for HBV-related disease.The success of antiviral therapy has been supported by the introduction of highly sensitive tests for monitoring HBV DNA. Molecular tests help to determine the activity of HBV infection, the selection of patients for treatment, and the efficacy of antiviral therapy, identifying the development of HBV drug-resistant strains (16,36,38).Several assays based on PCR are currently commercially available for HBV DNA. The recently introduced real-time PCR technique represents the method of choice compared to previous, conventional endpoint PCR due to a very sensitive quantification of the viral load over a wide dynamic range (7,12,15,18,20,21,24,31,32,35,41). At present, sample preparation is a major weakness in molecular tests, and improvements are constantly introduced to decrease the variability of the techniques and the risk of contamination, such as ready-to-use reagents and automation of the extraction procedure.A fully automated system, the COBAS AmpliPrep-COBAS TaqMan HBV test (CAP-CTM; Roche Molecular Systems, Inc., Branchburg, NJ) consisting of two integrated platformsthe COBAS AmpliPrep for automated nucleic acid extraction from plasma specimens and the COBAS TaqMan 48, a realtime PCR assay based on TaqMan technology-has recently been developed (13,35). Important improvements compared to other real-time PCR assays for HBV DNA are the incorporation of an internal quantitation standard to monitor the efficiency of the entire process and the introduction of a system to prevent carryover contamination. CAP-CTM is suitable for large routine series and has been demonstrated to equally quantitate HBV genotypes A through G (13, 35), but at present there are only few clinical data (13,28).In the present study, the performance of the CAP-CTM was evaluated and compared to the endpoint PCR assay COBAS AMPLICOR HBV monitor (CAHBM; Roche Molecular Systems). Analytical sensitivity and precision were assessed with an HBV proficiency panel, while correlation and differences in * Corresponding author. Mailing address: Laboratory of Microbiology, Molinette Hospital, Corso Bramante 88/90,

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