Background To prevent nosocomial transmission of SARS-CoV-2, infection prevention control (IPC) measures are implemented for patients with symptoms compatible with COVID-19 until reliable test results are available. This delays admission to the most appropriate ward based on the medical condition. SARS-CoV-2 rapid antigen detection (RAD) tests and point-of-care (POC) rapid RT-PCR (VitaPCR) were introduced at emergency department (ED) at Skåne University Hospital, Sweden in late 2020, but the consequence on patient flow and targeted admission is unknown. Methods Patients presenting at the emergency department of a referral hospital (N = 2940) between 13-Nov-2020 and 12-Jan-2021 were included. The study period was delimited into three periods by the introduction of RAD tests and the VitaPCR. Participant data was collected from hospital records, and outcome variables were Length-of-Stay (LoS), intrahospital transfers and targeted admission to COVID-19 ward. Results Compared to baseline (RT-PCR only), RAD tests reduced ED Length-of-Stay (LoS) for participants with positive tests. Negative VitaPCR results reduced mean hospital LoS by 1.5 (95% CI 0.3–2.7) days and admissions to COVID-19 wards from 34.5 (95% CI 28.9–40.5) to 14.7 (95% CI 11.1–19.1) per 100 admissions and reduced transfers between hospital wards in the first 5 days from 50.0 (95% CI 45.0–55.0) to 34.0 (95% CI 30.3–37.9) per 100 admissions. Conclusion RAD tests enabled prompt detection of SARS-CoV-2 infection which had pronounced effects on LoS at the ED. Negative VitaPCR enabled cessation of IPC measures and a negative test was associated with increased targeted admissions, reduced intrahospital transfers and shorter LoS at the hospital.
Background The dysregulation of B cell activation is prevalent during naturally acquired immunity against malaria. Osteopontin (OPN), a protein produced by various cells including B cells, is a phosphorylated glycoprotein that participates in immune regulation and has been suggested to be involved in the immune response against malaria. Here we studied the longitudinal concentrations of OPN in infants and their mothers living in Uganda, and how OPN concentrations correlated with B cell subsets specific for P. falciparum and B cell activating factor (BAFF). We also investigated the direct effect of OPN on P. falciparum in vitro. Results The OPN concentration was higher in the infants compared to the mothers, and OPN concentration in infants decreased from birth until 9 months. OPN concentration in infants during 9 months were independent of OPN concentrations in corresponding mothers. OPN concentrations in infants were inversely correlated with total atypical memory B cells (MBCs) as well as P. falciparum-specific atypical MBCs. There was a positive correlation between OPN and BAFF concentrations in both mothers and infants. When OPN was added to P. falciparum cultured in vitro, parasitemia was unaffected regardless of OPN concentration. Conclusions The concentrations of OPN in infants were higher and independent of the OPN concentrations in corresponding mothers. In vitro, OPN does not have a direct effect on P. falciparum growth. Our correlation analysis results suggest that OPN could have a role in the B cell immune response and acquisition of natural immunity against malaria.
(ii)AbstractBackgroundTo prevent nosocomial transmission of SARS-CoV-2, infection control measures are implemented for patients with symptoms compatible with COVID-19 until reliable test results are available. This delay targeted admission to the most appropriate ward based on the medical condition. SARS-CoV-2 rapid antigen detection (RAD) tests and point of care (POC) rapid RT-PCR were introduced at emergency departments (EDs) in late 2020, but the consequence on targeted admission is unknown.ObjectivesTo assess the effect of RAD tests and POC rapid RT-PCR (VitaPCR, Credo Diagnostics, Singapore) on targeted admission.MethodsPatients presenting at the ED of a referral hospital (N = 2,940) between 13-Nov-2020 and 12-Jan-2021 were included. The study period was delimited by introduction of RAD tests and VitaPCR. Participant data was collected retrospectively, and outcome variables were length-of-stay (LoS), intrahospital transfers and targeted admission to COVID-19 ward.ResultsRAD tests reduced ED LoS for participants with positive tests or that were not tested. Negative VitaPCR results reduced mean hospital LoS by 1.5 (95%CI: 0.3–2.7) days and admissions to COVID-19 wards from 34.5 (95%CI: 28.9-40.5) to 14.7 (95%CI: 11.1-19.1) per 100 admissions. Introduction of VitaPCR reduced transfers between hospital wards in the first 5 days from 50.0 (95%CI: 45.0-55.0) to 34.0 (95%CI: 30.3-37.9) per 100 admissions.ConclusionRAD tests enabled rapid detection of SARS-CoV-2 infection which had pronounced effects on LoS at the ED. VitaPCR added the possibility of exclusion of the infection which increased targeted admissions, reduced intrahospital transfers and lead to shorter stay at the hospital.
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