[Managing the pandemic-relocation concept for COVID-19 intensive care patients and non-COVID-19 intensive care patients in Baden-Württemberg]. / Die Pandemie bewältigen ­ Verlegungskonzept von COVID-19-Intensivpatienten und Non-COVID-19-Intensivpatienten in Baden-Württemberg.

BACKGROUND: A sharp rise in COVID-19 infections threatened to lead to a local overload of intensive care units in autumn 2020. To prevent this scenario a nationwide relocation concept was developed. METHODS: For the development of the concept publicly available infection rates of the leading infection authority in Germany were used. Within this concept six medical care regions (clusters) were designed around a center of maximum intensive care (ECMO option) based on the number of intensive care beds per 100,000 inhabitants. The concept describes the management structure including a structural chart, the individual tasks, the organization and the cluster assignment of the clinics. The transfers of intensive care patients within and between the clusters were recorded from 11 December 2020 to 31 January 2021. RESULT: In Germany and Baden-Württemberg, 1.5% of patients newly infected with SARS-CoV­2 required intensive care treatment in mid-December 2020. With a 7-day incidence of 192 new infections in Germany, the hospitalization rate was 10% and 28-35% of the intensive care beds were occupied by COVID-19 patients. Only 16.8% of the intensive care beds were still available, in contrast to 35% in June 2020. The developed relocation concept has been in use in Baden-Württemberg starting from 10 December 2020. From then until 7 February 2021, a median of 24 ± 5/54 intensive care patients were transferred within the individual clusters, in total 154 intensive care patients. Between the clusters, a minimum of 1 and a maximum of 15 (median 12.5) patients were transferred, 21 intensive care patients were transferred to other federal states and 21 intensive care patients were admitted from these states. The total number of intensive care patients transferred was 261. CONCLUSION: If the number of infections with SARS-CoV­2 increases, a nationwide relocation concept for COVID-19 intensive care patients and non-COVID-19 intensive care patients should be installed at an early stage in order not to overwhelm the capacities of hospitals. Supply regions around a leading clinic with maximum intensive care options are to be defined with a central management that organizes the necessary relocations in cooperation with regional and superregional rescue service control centers. With this concept and the intensive care transports carried out, it was possible to effectively prevent the overload of individual clinics with COVID-19 patients in Baden-Württemberg. Due to that an almost unchanged number of patients requiring regular intensive care could be treated.

[Assessment of the risk of infection from SARS-CoV-2 for healthcare workers-findings from practice]. / Beurteilung des Infektionsrisikos durch SARS-CoV-2 für medizinisches Personal ­ Erkenntnisse aus der Praxis.

SARS-CoV­2 has rapidly spread over the world in a pandemic manner causing an infection of predominantly pulmonary manifestation named the COVID-19 disease. Currently, there is neither an effective vaccination nor a specific therapy available. At least two vaccines will be available at the time of publication. In the international press, the risk for medical personnel of SARS-CoV­2 is rated as high. The Robert Koch Institute, Germany's leading epidemiological authority, regards the risk of infection for the general population to be high. The aim of this article is to discuss and reassess the risk of infection and disease for healthcare workers based on practical experience, national regulations and guidelines, and the number of infections. Both unprotected healthcare workers and healthcare workers equipped with personal protective equipment (PPE) are considered. A corresponding risk matrix is created.The risk of infection with SAR-CoV­2 for healthcare workers is comparable to the general population and rated as high. Proper use of PPE reduces this risk to medium. PPE consists of liquid-proof gowns, gloves, and filtering face pieces (FFP; FFP 2 as a standard, FFP 3 for aerosol-releasing interventions), a hair cover, and protective goggles. Improper use of PPE, inadequate hygienic measures, and long working shifts increase the risk of infection.

Erratum: Relationship between odor intensity estimates and COVID-19 prevalence prediction in a Swedish population (Chem. Senses (2020) DOI: 10.1093/chemse/bjaa034)

This is a correction notice for article bjz034 (DOI: https://doi. org/10.1093/chemse/bjaa034), published on 22 May 2020. Due to an error in the script used to create subsections of Figure 1, there was both a shift in the intensity data and an erroneous calculation of error bars in all panels. Figure 1 and the accompanying figure legend have been revised to show the correct levels and error bars. This script error only affected visualization of the data in Figure 1 and did not impact the reported data or conclusions.(Figure Presented). © The Author(s) 2020. Published by Oxford University Press. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.