Persistence of SARS-CoV-2 RNA shedding and infectivity in immunized population: Prospective study along different epidemiological periods in Argentina.

During the pandemic of COVID-19, numerous waves of infections affected the two hemispheres with different impacts on each country. Throughout these waves, and with the emergence of new variants, health systems and scientists have tried to provide real-time responses to the complex biology of SARS-CoV-2, dealing with different clinical presentations, biological characteristics, and clinical impact of these variants. In this context, knowing the extent period in which an infected individual releases infectious viral particles has important implications for public health. This work aimed to investigate viral RNA shedding and infectivity of SARS-CoV-2 beyond 10 days after symptom onset (SO). A prospective multicenter study was performed between July/2021 and February/2022 on 116 immunized strategic personnel with COVID-19 diagnosed by RT-qPCR, with asymptomatic (7%), mild (91%) or moderate disease (2%). At the time of diagnosis, 70% had 2 doses of vaccines, 26% had 2 plus a booster, and 4% had one dose. After day 10 from SO, sequential nasopharyngeal swabs were taken to perform RT-qPCR, viral isolation, and S gene sequencing when possible. Viral sequences were obtained in 98 samples: 43% were Delta, 16% Lambda, 15% Gamma, 25% Omicron (BA.1) and 1% Non-VOC/VOI, in accordance with the main circulating variants at each moment. SARS-CoV-2 RNA was detected 10 days post SO in 57% of the subjects. Omicron was significantly less persistent. Noteworthy, infective viruses could not be isolated in any of the samples. In conclusion, a 10-days isolation period was useful to prevent further infections, and proved valid for the variants studied. Recently, even shorter periods have been applied, as the Omicron variant is prevalent, and worldwide population is largely vaccinated. In the future, facing the possible emergence of new variants and considering immunological status, a return to 10 days may be necessary.

Comparison of antigen test and polymerase chain reaction for SARS-CoV-2 in children younger than 12 years. / Comparación del test de antígeno y la reacción en cadena de polimerasa para SARS-CoV-2 en niños menores de 12 años.

Stopping the spread of coronavirus disease 2019 (COVID-19) is critical and can be achieved through rapid and effective detection techniques. Our objective was to compare the diagnostic accuracy of rapid antigen tests (RAgT) and reverse transcriptionquantitative polymerase chain reaction (RT-qPCR) and to describe amplification cycle thresholds (Cts). Participants were children aged 1 month to 11 years with symptoms for less than 7 days, who did not have a detectable result in the past 90 days, and were immunocompetent. A total of 1855 patients were included; the prevalence of COVID-19 was 4.7%. For the RAgT, overall sensitivity was 60.2% and specificity, 99.8%; in children older than 5 years, values were 69.8% and 99.8%, respectively. Ct values for discordant samples were higher. To conclude, the diagnostic accuracy indicated that the specificity of RAgT is similar to that of RT-qPCR, but its sensitivity is notably lower, especially in children younger than 5 years.

Frenar la propagación de la enfermedad por el coronavirus 2019 (COVID-19, por su sigla en inglés) es fundamental, y se puede realizar mediante técnicas de detección rápidas y efectivas. El objetivo fue comparar la precisión diagnóstica de un test rápido de antígeno (TRAg,) con la reacción en cadena de polimerasa con retrotranscripción (RT-qPCR, por su sigla en inglés) y describir los umbrales de amplificación (Ct, por su sigla en inglés). Participaron niños de 1 mes a 11 años que tuvieran menos de 7 días de síntomas, sin resultado detectable en los últimos 90 días, e inmunocompetentes. Se incluyeron 1855 pacientes con una prevalencia de COVID-19 del 4,7 %. La sensibilidad global del TRAg fue del 60,2 % y su especificidad, del 99,8 %; en niños mayores de 5 años los valores fueron de 69,8 % y 99,8 %, respectivamente. Los valores de Ct de las muestras discordantes fueron más altos. En conclusión, la precisión diagnóstica muestra que TRAg tiene una especificidad similar a la RT-qPCR, pero una sensibilidad considerablemente menor, sobre todo en niños de menos de 5 años.