Marta Santos Bravo1, David Nicolás2, Carla Berengua3, Mariana Fernandez1, Juan Carlos Hurtado1, Marta Tortajada4, Sonia Barroso4, Anna Vilella5, Mar Mosquera1, Jordi Vila1, María Angeles Marcos1. 1. Department of Microbiology, Hospital Clínic of Barcelona. Institut of Global Health (ISGlobal), Barcelona, Spain. 2. Hospital at Home Unit, Internal Medicine Service, Hospital Clínic Barcelona. University of Barcelona, Spain. 3. Department of Microbiology, Hospital de la Santa Creu i Sant Pau, Barcelona, Spain. 4. Risk Prevention Service, Hospital Clínic of Barcelona, Barcelona, Spain. 5. Epidemiology and Preventive Medicine Service, Hospital Clínic of Barcelona. Institut of Global Health (ISGlobal), Barcelona, Spain.
Abstract
BACKGROUND: SARS-CoV-2 RT-PCR provides a highly variable cycle-threshold (Ct) value that cannot distinguish viral infectivity. Subgenomic RNA (sgRNA) has been used to monitor active replication. Given the importance of long RT-PCR positivity and the need for work reincorporation and discontinuing isolation, we studied the functionality of normalized viral loads (NVL) for patient monitoring and sgRNA for viral infectivity detection. METHODS: NVL measured through the Nucleocapsid and RNA-dependent-RNA-polymerase genes and sgRNA RT-PCRs were performed in 2 consecutive swabs from 84 health-care workers. RESULTS: NVL provided similar and accurate quantities of both genes of SARS-CoV-2 at two different time-points of infection, overcoming Ct-value and swab collection variability. Among SARS-CoV-2-positive samples, 51.19% were sgRNA-positive in the 1 stRT-PCR and 5.95% in the 2 ndRT-PCR. All sgRNA-positive samples had >4log10RNAcopies/1000cells, while samples with ≤1log10 NVL were sgRNA-negative. Although NVL were positive until 29 days after symptom onset, 84.1% of sgRNA-positive samples were from the first 7 days, which correlated with viral culture viability. Multivariate analyses showed that sgRNA, NVL and days of symptoms were significantly associated (p<0.001). CONCLUSIONS: NVL and sgRNA are two rapid accessible techniques that could be easily implemented in routine hospital practice providing a useful proxy for viral infectivity and COVID-19 patient follow-up.
BACKGROUND:SARS-CoV-2 RT-PCR provides a highly variable cycle-threshold (Ct) value that cannot distinguish viral infectivity. Subgenomic RNA (sgRNA) has been used to monitor active replication. Given the importance of long RT-PCR positivity and the need for work reincorporation and discontinuing isolation, we studied the functionality of normalized viral loads (NVL) for patient monitoring and sgRNA for viral infectivity detection. METHODS: NVL measured through the Nucleocapsid and RNA-dependent-RNA-polymerase genes and sgRNA RT-PCRs were performed in 2 consecutive swabs from 84 health-care workers. RESULTS: NVL provided similar and accurate quantities of both genes of SARS-CoV-2 at two different time-points of infection, overcoming Ct-value and swab collection variability. Among SARS-CoV-2-positive samples, 51.19% were sgRNA-positive in the 1 stRT-PCR and 5.95% in the 2 ndRT-PCR. All sgRNA-positive samples had >4log10RNAcopies/1000cells, while samples with ≤1log10 NVL were sgRNA-negative. Although NVL were positive until 29 days after symptom onset, 84.1% of sgRNA-positive samples were from the first 7 days, which correlated with viral culture viability. Multivariate analyses showed that sgRNA, NVL and days of symptoms were significantly associated (p<0.001). CONCLUSIONS: NVL and sgRNA are two rapid accessible techniques that could be easily implemented in routine hospital practice providing a useful proxy for viral infectivity and COVID-19patient follow-up.
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