ZusammenfassungDie vorliegende Leitlinie S1 fasst den Stand der Kenntnis zu Long COVID zum Zeitpunkt des Redaktionsschlusses zusammen. Aufgund der starken Dynamik der Wissensentwicklung versteht sie sich als „living guideline“. Der Schwerpunkt liegt auf der praktischen Anwendbarkeit auf der Ebene der hausärztlichen Primärversorgung, die als geeignete Stelle für den Erstzutritt und für die primäre Betreuung und Behandlung verstanden wird. Die Leitlinie gibt Empfehlungen zur Differenzialdiagnostik der häufigsten Symptome, die in der Folge einer Infektion mit SARS-CoV‑2 auftreten können, zu therapeutischen Optionen, zu Patient:innenführung und -betreuung, sowie zu Wiedereingliederung in den Alltag, und die Rehabilitation. Entsprechend des Krankheitsbildes ist die Leitlinie in einem interdisziplinären Prozess entstanden und gibt Empfehlungen zu Schnittstellen und Kooperationsmöglichkeiten.
Background: Testing for COVID-19 with quantitative reverse transcriptase-polymerase chain reaction (RT-PCR) may result in delayed detection of disease. Antigen detection via lateral flow testing (LFT) is faster and amenable to population-wide testing strategies. Our study assesses the diagnostic accuracy of LFT compared to RT-PCR on the same primarycare patients in Austria. Methods: Patients with mild to moderate flu-like symptoms attending a general practice network in an Austrian district (October 22 to November 30, 2020) received clinical assessment including LFT. All suspected COVID-19 cases obtained additional RT-PCR and were divided into two groups: Group 1 (true reactive): suspected cases with reactive LFT and positive RT-PCR; and Group 2 (false non-reactive): suspected cases with a non-reactive LFT but positive RT-PCR. Findings: Of the 2,562 symptomatic patients, 1,037 were suspected of COVID-19 and 826 (79.7%) patients tested RT-PCR positive. Among patients with positive RT-PCR, 788/826 tested LFT reactive (Group 1) and 38 (4.6%) non-reactive (Group 2).
This study demonstrates that the antigenic changes of the SARS-CoV-2 Omicron variant affect test results from commercial Spike- and RBD-specific antibody assays, significantly diminishing their sensitivities and diagnostic abilities to assess neutralizing antibodies.
Background: Testing for COVID-19 with quantitative reverse transcriptase-polymerase chain reaction (RT-PCR) may result in delayed detection of disease. Antigen detection via lateral flow testing (LFT) is faster and amenable to population-wide testing strategies. Our study assesses the diagnostic accuracy of LFT compared to RT-PCR on the same primarycare patients in Austria. Methods: Patients with mild to moderate flu-like symptoms attending a general practice network in an Austrian district (October 22 to November 30, 2020) received clinical assessment including LFT. All suspected COVID-19 cases obtained additional RT-PCR and were divided into two groups: Group 1 (true reactive): suspected cases with reactive LFT and positive RT-PCR; and Group 2 (false non-reactive): suspected cases with a non-reactive LFT but positive RT-PCR. Findings: Of the 2,562 symptomatic patients, 1,037 were suspected of COVID-19 and 826 (79.7%) patients tested RT-PCR positive. Among patients with positive RT-PCR, 788/826 tested LFT reactive (Group 1) and 38 (4.6%) non-reactive (Group 2).
Background In October 2020, amidst the second COVID-19 epidemic wave and before the second-national lockdown, Austria introduced a policy of population-wide point-of-care lateral flow antigen testing (POC-LFT). This study explores the impact of this policy by quantifying the association between trends in POC-LFT-activity with trends in PCR-positivity (as a proxy for symptomatic infection), hospitalisations and deaths related to COVID-19 between October 22 and December 06, 2020. Methods We stratified 94 Austrian districts according to POC-LFT-activity (number of POC-LFTs performed per 100,000 inhabitants over the study period), into three population cohorts: (i) high(N = 24), (ii) medium(N = 45) and (iii) low(N = 25). Across the cohorts we a) compared trends in POC-LFT-activity with PCR-positivity, hospital admissions and deaths related to COVD-19; b) compared the epidemic growth rate before and after the epidemic peak; and c) calculated the Pearson correlation coefficients between PCR-positivity with COVID-19 hospitalisations and with COVID -19 related deaths. Results The trend in POC-LFT activity was similar to PCR-positivity and hospitalisations trends across high, medium and low POC-LFT activity cohorts, with association with deaths only present in cohorts with high POC-LFT activity. Compared to the low POC-LFT-activity cohort, the high-activity cohort had steeper pre-peak daily increase in PCR-positivity (2.24 more cases per day, per district and per 100,000 inhabitants; 95% CI: 2.0–2.7; p < 0.001) and hospitalisations (0.10; 95% CI: 0.02, 0.18; p = 0.014), and 6 days earlier peak of PCR-positivity. The high-activity cohort also had steeper daily reduction in the post-peak trend in PCR-positivity (-3.6; 95% CI: -4.8, -2.3; p < 0.001) and hospitalisations (-0.2; 95% CI: -0.32, -0.08; p = 0.001). PCR-positivity was positively correlated to both hospitalisations and deaths, but with lags of 6 and 14 days respectively. Conclusions High POC-LFT-use was associated with increased and earlier case finding during the second Austrian COVID-19 epidemic wave, and early and significant reduction in cases and hospitalisations during the second national lockdown. A national policy promoting symptomatic POC-LFT in primary care, can capture trends in PCR-positivity and hospitalisations. Symptomatic POC-LFT delivered at scale and combined with immediate self-quarantining and contact tracing can thus be a proxy for epidemic status, and hence a useful tool that can replace large-scale PCR testing.
The recently emerged Omicron variant is the most antigenically distinct SARS-CoV-2 variant of concern to date. As the heavily mutated spike protein enables escape from neutralizing antibodies, we studied the neutralizing activities of sera after Omicron BA.1 and BA.2 infections of naïve and vaccinated individuals. We show that primary BA.1 infections yielded reduced neutralizing antibody titers against wildtype (WT), Delta, and BA.2, while serum samples from individuals after BA.2 infection showed no cross-neutralization against the other variants. Fully vaccinated individuals were still able to neutralize both Omicron sub-lineages up to three months after vaccination, and Omicron-breakthrough infections showed equal cross-neutralizing activities against WT, Delta, BA.1, and BA.2. Our data demonstrate that Omicron variants are able to enhance cross-neutralizing antibodies in pre-immune individuals. Primary infections with one of the Omicron sub-lineages, however, induced variant-specific neutralizing antibodies. In particular, BA.2 infections generated a sub-lineage-specific response, emphasizing its antigenic distance.
Background Delay in COVID-19 detection has led to a major pandemic. We report rapid early detection of SARS-CoV-2 by reverse transcriptase-polymerase chain reaction (RT-PCR), comparing it to the serostatus of convalescent infection, at an Austrian National Sentinel Surveillance Practice in an isolated ski-resort serving a population of 22,829 people. Methods Retrospective dataset of all 73 patients presenting with mild to moderate flu-like symptoms to a sentinel practice in the ski-resort of Schladming-Dachstein, Austria, between 24 February and 03 April, 2020. We split the outbreak in two halves, by dividing the period from the first to the last case by two, to characterise the following three cohorts of patients with confirmed infection: people with reactive RT-PCR presenting during the first half (early acute infection) vs. those presenting in the second half (late acute), and people with non-reactive RT-PCR (late convalescent). For each cohort we report the number of cases detected, the accuracy of RT-PCR and the duration of symptoms. We also report multivariate regression of 15 clinical symptoms as covariates, comparing all people with convalescent infection to those with acute infection. Findings All 73 patients had SARS-CoV-2 RT-PCR testing. 22 patients were diagnosed with COVID-19, comprising: 8 patients presenting early acute, and 7 presenting late acute and 7 late convalescent respectively; 44 patients tested SARS-COV-2 negative, and 7 were excluded. RT-PCR sensitivity was high (100%) among acute presenters, but dropped to 50% in the second half of the outbreak; specificity was 100%. The mean duration of symptoms was 2 days (range 1-4) among early acute presenters, and 4.4 days (1-7) among late acute and 8 days (2-12) among late convalescent presenters respectively. Convalescent infection was only associated with loss of taste (ORs=6.02;p=0.047). Acute infection was associated with loss of taste (OR=571.72;p=0.029), nausea and vomiting (OR=370.11;p=0.018), breathlessness (OR=134.46;p=0.049), and myalgia (OR=121.82;p=0.032); but not loss of smell, fever or cough. Interpretation RT-PCR rapidly and reliably detects early COVID-19 among people presenting with viral illness and multiple symptoms in primary care, particularly during the early phase of an outbreak. RT-PCR testing in primary care should be prioritised for effective COVID-19 prevention and control.
Background Early detection is essential to control COVID-19. Symptoms are often unspecific. Data collected merely from patients tested according to testing criteria might lead to missing a bulk of spreaders. Knowledge of symptom development during the disease helps to detect complications early. Few data have been collected in primary care so far. Aim To extend knowledge of early symptoms as a precondition of timely diagnosis, isolation and contact tracing. To gain understanding of associations between symptoms and complicated disease to help avoid hospitalization. Design and Settings This study was designed as a retrospective observational study in Austrian GP practices in the year 2020. Methods Patients above 18 years with a positive SARS-CoV-2 test were included. Data collection comprised basic demographic data, risk factors and the recording of symptoms at several points in time during the course of the infection. Further descriptive data analysis was carried out by using the statistical software program R. Results Symptoms clearly typical for COVID-19 are rare. Most symptoms are nonspecific, like malaise, fatigue or joint ache. We found symptoms indicating complicated disease, depending on the time of their occurrence. Anosmia we found to develop only after several days in many cases. At the end of the isolation period many patients still experience symptoms. Conclusion Low threshold contact in GP practices including testing can prevent overlooking early symptoms. Patients may benefit from early monitoring. We recommend a medical check-up at the end of the isolation period.
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