Your search keyword '"Schneider-Sliwa R"' showing total 20 results

1. Determinants of SARS-CoV-2 transmission to guide vaccination strategy in an urban area.

Author

Brüningk, SC, Klatt, J, Stange, M, Mari, A, Brunner, M, Roloff, T-C, Seth-Smith, HMB, Schweitzer, M, Leuzinger, K, Søgaard, KK, Albertos Torres, D, Gensch, A, Schlotterbeck, A-K, Nickel, CH, Ritz, N, Heininger, U, Bielicki, J, Rentsch, K, Fuchs, S, Bingisser, R, Siegemund, M, Pargger, H, Ciardo, D, Dubuis, O, Buser, A, Tschudin-Sutter, S, Battegay, M, Schneider-Sliwa, R, Borgwardt, KM, Hirsch, HH, Egli, A, Brüningk, SC, Klatt, J, Stange, M, Mari, A, Brunner, M, Roloff, T-C, Seth-Smith, HMB, Schweitzer, M, Leuzinger, K, Søgaard, KK, Albertos Torres, D, Gensch, A, Schlotterbeck, A-K, Nickel, CH, Ritz, N, Heininger, U, Bielicki, J, Rentsch, K, Fuchs, S, Bingisser, R, Siegemund, M, Pargger, H, Ciardo, D, Dubuis, O, Buser, A, Tschudin-Sutter, S, Battegay, M, Schneider-Sliwa, R, Borgwardt, KM, Hirsch, HH, and Egli, A

Abstract

Transmission chains within small urban areas (accommodating ∼30 per cent of the European population) greatly contribute to case burden and economic impact during the ongoing coronavirus pandemic and should be a focus for preventive measures to achieve containment. Here, at very high spatio-temporal resolution, we analysed determinants of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) transmission in a European urban area, Basel-City (Switzerland). We combined detailed epidemiological, intra-city mobility and socio-economic data sets with whole-genome sequencing during the first SARS-CoV-2 wave. For this, we succeeded in sequencing 44 per cent of all reported cases from Basel-City and performed phylogenetic clustering and compartmental modelling based on the dominating viral variant (B.1-C15324T; 60 per cent of cases) to identify drivers and patterns of transmission. Based on these results we simulated vaccination scenarios and corresponding healthcare system burden (intensive care unit (ICU) occupancy). Transmissions were driven by socio-economically weaker and highly mobile population groups with mostly cryptic transmissions which lacked genetic and identifiable epidemiological links. Amongst more senior population transmission was clustered. Simulated vaccination scenarios assuming 60-90 per cent transmission reduction and 70-90 per cent reduction of severe cases showed that prioritising mobile, socio-economically weaker populations for vaccination would effectively reduce case numbers. However, long-term ICU occupation would also be effectively reduced if senior population groups were prioritised, provided there were no changes in testing and prevention strategies. Reducing SARS-CoV-2 transmission through vaccination strongly depends on the efficacy of the deployed vaccine. A combined strategy of protecting risk groups by extensive testing coupled with vaccination of the drivers of transmission (i.e. highly mobile groups) would be most effective at

Published

2022

2. Nachwort

Author

Schneider-Sliwa, R., Schneider-Sliwa, Rita, editor, Gerold, Gerhard, editor, and Schaub, Daniel, editor

Published

1999

3. Geographien des Marktes

Author

Schneider-Sliwa, Rita, Braun, Boris, Helbrecht, Ilse, Wehrhahn, Rainer, Schneider-Sliwa, R ( Rita ), Braun, B ( Boris ), Helbrecht, I ( Ilse ), Wehrhahn, R ( Rainer ), Berndt, Christian, Boeckler, Marc, Schneider-Sliwa, Rita, Braun, Boris, Helbrecht, Ilse, Wehrhahn, Rainer, Schneider-Sliwa, R ( Rita ), Braun, B ( Boris ), Helbrecht, I ( Ilse ), Wehrhahn, R ( Rainer ), Berndt, Christian, and Boeckler, Marc

Abstract

Märkte sind zum wichtigsten Koordinationsinstrument moderner Gesellschaften geworden. Das beginnt nicht erst mit dem Gang zum Supermarkt und hört auch nicht mit Aktienkäufen auf dem Finanzmarkt auf. Weite Teile der öffentlichen Versorgung sind dem Marktmechanismus unterworfen, Gesundheit, Bildung, Transport, Kommunikation. Vor diesem Hintergrund verwundert es, dass eine geographische Beschäftigung mit Märkten noch immer in den Kinderschuhen steckt.

Published

2021

4. Characterising the epidemic spread of influenza A/H3N2 within a city through phylogenetics.

Author

Lauring, AS, Müller, NF, Wüthrich, D, Goldman, N, Sailer, N, Saalfrank, C, Brunner, M, Augustin, N, Seth-Smith, HM, Hollenstein, Y, Syedbasha, M, Lang, D, Neher, RA, Dubuis, O, Naegele, M, Buser, A, Nickel, CH, Ritz, N, Zeller, A, Lang, BM, Hadfield, J, Bedford, T, Battegay, M, Schneider-Sliwa, R, Egli, A, Stadler, T, Lauring, AS, Müller, NF, Wüthrich, D, Goldman, N, Sailer, N, Saalfrank, C, Brunner, M, Augustin, N, Seth-Smith, HM, Hollenstein, Y, Syedbasha, M, Lang, D, Neher, RA, Dubuis, O, Naegele, M, Buser, A, Nickel, CH, Ritz, N, Zeller, A, Lang, BM, Hadfield, J, Bedford, T, Battegay, M, Schneider-Sliwa, R, Egli, A, and Stadler, T

Abstract

Infecting large portions of the global population, seasonal influenza is a major burden on societies around the globe. While the global source sink dynamics of the different seasonal influenza viruses have been studied intensively, its local spread remains less clear. In order to improve our understanding of how influenza is transmitted on a city scale, we collected an extremely densely sampled set of influenza sequences alongside patient metadata. To do so, we sequenced influenza viruses isolated from patients of two different hospitals, as well as private practitioners in Basel, Switzerland during the 2016/2017 influenza season. The genetic sequences reveal that repeated introductions into the city drove the influenza season. We then reconstruct how the effective reproduction number changed over the course of the season. While we did not find that transmission dynamics in Basel correlate with humidity or school closures, we did find some evidence that it may positively correlated with temperature. Alongside the genetic sequence data that allows us to see how individual cases are connected, we gathered patient information, such as the age or household status. Zooming into the local transmission outbreaks suggests that the elderly were to a large extent infected within their own transmission network. In the remaining transmission network, our analyses suggest that school-aged children likely play a more central role than pre-school aged children. These patterns will be valuable to plan interventions combating the spread of respiratory diseases within cities given that similar patterns are observed for other influenza seasons and cities.

Published

2020

5. Urban Geography

Author

Schneider-Sliwa, R., primary

Published

2001

6. Identification of influenza urban transmission patterns by geographical, epidemiological and whole genome sequencing data: protocol for an observational study.

Author

Egli, A, Saalfrank, C, Goldman, N, Brunner, M, Hollenstein, Y, Vogel, T, Augustin, N, Wüthrich, D, Seth-Smith, HMB, Roth, E, Syedbasha, M, Mueller, NF, Vogt, D, Bauer, J, Amar-Sliwa, N, Meinel, DM, Dubuis, O, Naegele, M, Tschudin-Sutter, S, Buser, A, Nickel, CH, Zeller, A, Ritz, N, Battegay, M, Stadler, T, Schneider-Sliwa, R, Egli, A, Saalfrank, C, Goldman, N, Brunner, M, Hollenstein, Y, Vogel, T, Augustin, N, Wüthrich, D, Seth-Smith, HMB, Roth, E, Syedbasha, M, Mueller, NF, Vogt, D, Bauer, J, Amar-Sliwa, N, Meinel, DM, Dubuis, O, Naegele, M, Tschudin-Sutter, S, Buser, A, Nickel, CH, Zeller, A, Ritz, N, Battegay, M, Stadler, T, and Schneider-Sliwa, R

Abstract

INTRODUCTION: Urban transmission patterns of influenza viruses are complex and poorly understood, and multiple factors may play a critical role in modifying transmission. Whole genome sequencing (WGS) allows the description of patient-to-patient transmissions at highest resolution. The aim of this study is to explore urban transmission patterns of influenza viruses in high detail by combining geographical, epidemiological and immunological data with WGS data. METHODS AND ANALYSIS: The study is performed at the University Hospital Basel, University Children's Hospital Basel and a network of paediatricians and family doctors in the Canton of Basel-City, Switzerland. The retrospective study part includes an analysis of PCR-confirmed influenza cases from 2013 to 2018. The prospective study parts include (1) a household survey regarding influenza-like illness (ILI) and vaccination against influenza during the 2015/2016 season; (2) an analysis of influenza viruses collected during the 2016/2017 season using WGS-viral genomic sequences are compared with determine genetic relatedness and transmissions; and (3) measurement of influenza-specific antibody titres against all vaccinated and circulated strains during the 2016/2017 season from healthy individuals, allowing to monitor herd immunity across urban quarters. Survey data and PCR-confirmed cases are linked to data from the Statistics Office of the Canton Basel-City and visualised using geo-information system mapping. WGS data will be analysed in the context of patient epidemiological data using phylodynamic analyses, and the obtained herd immunity for each quarter. Profound knowledge on the key geographical, epidemiological and immunological factors influencing urban influenza transmission will help to develop effective counter measurements. ETHICS AND DISSEMINATION: The study is registered and approved by the regional ethics committee as an observational study (EKNZ project ID 2015-363 and 2016-01735). It is planned to

Published

2019

7. Geschlechterungleichheiten

Author

Schneider-Sliwa, R, Schneider-Sliwa, R ( R ), Bühler, E, Schneider-Sliwa, R, Schneider-Sliwa, R ( R ), and Bühler, E

Published

2011

8. Global changes – new urban realities: University of Basel’s contribution to the study of contemporary urban and regional development

Author

Schneider-Sliwa, R., primary

Published

2012

9. Geography and the core themes of humanity – Editorial

Author

Schneider-Sliwa, R., primary

Published

2012

10. Die Theorie der geographischen Dimensionen in der Angewandten Landschaftsökologie

Author

Schneider-Sliwa, R., Schaub, D., Gerold, G., Steinhardt, U., Schneider-Sliwa, R., Schaub, D., Gerold, G., and Steinhardt, U.

Abstract

Der grundsätzliche Gedanke der hierarchischen Organisation der Natur ist nicht neu, vielmehr greifen neue Theorien u.a. auch auf das holistische Axiom zurück, daß das Ganze mehr ist als die Summe seiner Bestandteile, das erstmals bei Smuts (1926) erwähnt wurde und durch Egler (1942) in die Ökologie eingeführt wurde. In diesem Sinne wird das gesamte Universum als eine Organisation betrachtet - ein geordnetes Ganzes bestehend aus einer Hierarchie mehrschichtiger Systeme, in der jedes höhere Niveau aus Systemen niedriger Niveaustufen gebildet wird, wobei dieser Transformationsprozeß stets mit qualitativen Sprüngen verbunden ist. Dieser Grundsatz der hierarchischen Organisation wird sichtbar bei allen rela­tiv stabilen komplexen Strukturen und Prozessen - vom subatomaren Niveau über chemische und biologisch-organische Niveaus bis hin zu ökologischen und sozia­len Integrationsniveaus und schließlich zu globalen und galaktischen Systemen (Naveh u. Liebermann 1994). Allen u. Hoekstra (1992) stellen fest, daß insbeson­dere ökologische Systeme oftmals eine Rangfolge aufweisen und unterscheiden zwischen acht Niveaus der Organisation von der Zelle bis zur Biosphäre (Zelle — Organismus — Population — Gemeinschaft — Ökosystem — Landschaft — Biom — Biosphäre). Diese Rangfolge bezeichnen sie als biologische oder ökologische Hierarchie.

Published

1999

11. Städtische Umwelt im Alter : Präferenzen älterer Menschen zum altersgerechten Wohnen, zur Wohnumfeld- und Quartiersgestaltung in Basel

Author

Schneider-Sliwa, R., primary

Published

2004

12. Retirement communities and housing for the elderly : editorial to the special issue

Author

Lucas, S., primary and Schneider-Sliwa, R., additional

Published

2004

13. Geography in Basel : the integrative approach

Author

Leser, H., primary, Schneider-Sliwa, R., additional, Nagel, P., additional, Parlow, E., additional, and Alewell, C., additional

Published

2003

14. Geography : problem solving competencies for societal concerns

Author

Schneider-Sliwa, R., primary and Leser, H., additional

Published

2003

15. Changes in the urban landscape at the end of the 20th century: an overview of the special issue

Author

Schneider-Sliwa, R., primary

Published

1999

16. Geschlechterungleichheiten

Author

Bühler, E, University of Zurich, Schneider-Sliwa, R, and Bühler, E

Subjects

10122 Institute of Geography, 910 Geography & travel

Published

2011

17. Determinants of SARS-CoV-2 transmission to guide vaccination strategy in an urban area.

Author

Brüningk SC, Klatt J, Stange M, Mari A, Brunner M, Roloff TC, Seth-Smith HMB, Schweitzer M, Leuzinger K, Søgaard KK, Albertos Torres D, Gensch A, Schlotterbeck AK, Nickel CH, Ritz N, Heininger U, Bielicki J, Rentsch K, Fuchs S, Bingisser R, Siegemund M, Pargger H, Ciardo D, Dubuis O, Buser A, Tschudin-Sutter S, Battegay M, Schneider-Sliwa R, Borgwardt KM, Hirsch HH, and Egli A

Abstract

Transmission chains within small urban areas (accommodating ∼30 per cent of the European population) greatly contribute to case burden and economic impact during the ongoing coronavirus pandemic and should be a focus for preventive measures to achieve containment. Here, at very high spatio-temporal resolution, we analysed determinants of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) transmission in a European urban area, Basel-City (Switzerland). We combined detailed epidemiological, intra-city mobility and socio-economic data sets with whole-genome sequencing during the first SARS-CoV-2 wave. For this, we succeeded in sequencing 44 per cent of all reported cases from Basel-City and performed phylogenetic clustering and compartmental modelling based on the dominating viral variant (B.1-C15324T; 60 per cent of cases) to identify drivers and patterns of transmission. Based on these results we simulated vaccination scenarios and corresponding healthcare system burden (intensive care unit (ICU) occupancy). Transmissions were driven by socio-economically weaker and highly mobile population groups with mostly cryptic transmissions which lacked genetic and identifiable epidemiological links. Amongst more senior population transmission was clustered. Simulated vaccination scenarios assuming 60-90 per cent transmission reduction and 70-90 per cent reduction of severe cases showed that prioritising mobile, socio-economically weaker populations for vaccination would effectively reduce case numbers. However, long-term ICU occupation would also be effectively reduced if senior population groups were prioritised, provided there were no changes in testing and prevention strategies. Reducing SARS-CoV-2 transmission through vaccination strongly depends on the efficacy of the deployed vaccine. A combined strategy of protecting risk groups by extensive testing coupled with vaccination of the drivers of transmission (i.e. highly mobile groups) would be most effective at reducing the spread of SARS-CoV-2 within an urban area., (© The Author(s) 2022. Published by Oxford University Press.)

Published

2022

18. SARS-CoV-2 outbreak in a tri-national urban area is dominated by a B.1 lineage variant linked to a mass gathering event.

Author

Stange M, Mari A, Roloff T, Seth-Smith HM, Schweitzer M, Brunner M, Leuzinger K, Søgaard KK, Gensch A, Tschudin-Sutter S, Fuchs S, Bielicki J, Pargger H, Siegemund M, Nickel CH, Bingisser R, Osthoff M, Bassetti S, Schneider-Sliwa R, Battegay M, Hirsch HH, and Egli A

Subjects

Adult, COVID-19 epidemiology, COVID-19 genetics, Female, Humans, Longitudinal Studies, Male, Mass Screening, Middle Aged, SARS-CoV-2 classification, SARS-CoV-2 isolation & purification, Switzerland epidemiology, COVID-19 diagnosis, Contact Tracing methods, Crowding, Genome, Viral, Mutation, SARS-CoV-2 genetics

Abstract

The first case of SARS-CoV-2 in Basel, Switzerland was detected on February 26th 2020. We present a phylogenetic study to explore viral introduction and evolution during the exponential early phase of the local COVID-19 outbreak from February 26th until March 23rd. We sequenced SARS-CoV-2 naso-oropharyngeal swabs from 746 positive tests that were performed at the University Hospital Basel during the study period. We successfully generated 468 high quality genomes from unique patients and called variants with our COVID-19 Pipeline (COVGAP), and analysed viral genetic diversity using PANGOLIN taxonomic lineages. To identify introduction and dissemination events we incorporated global SARS-CoV-2 genomes and inferred a time-calibrated phylogeny. Epidemiological data from patient questionnaires was used to facilitate the interpretation of phylogenetic observations. The early outbreak in Basel was dominated by lineage B.1 (83·6%), detected first on March 2nd, although the first sample identified belonged to B.1.1. Within B.1, 68·2% of our samples fall within a clade defined by the SNP C15324T ('Basel cluster'), including 157 identical sequences at the root of the 'Basel cluster', some of which we can specifically trace to regional spreading events. We infer the origin of B.1-C15324T to mid-February in our tri-national region. The other genomes map broadly over the global phylogenetic tree, showing several introduction events from and/or dissemination to other regions of the world via travellers. Family transmissions can also be traced in our data. A single lineage variant dominated the outbreak in the Basel area while other lineages, such as the first (B.1.1), did not propagate. A mass gathering event was the predominant initial source of cases, with travel returners and family transmissions to a lesser extent. We highlight the importance of adding specific questions to epidemiological questionnaires, to obtain data on attendance of large gatherings and their locations, as well as travel history, to effectively identify routes of transmissions in up-coming outbreaks. This phylogenetic analysis in concert with epidemiological and contact tracing data, allows connection and interpretation of events, and can inform public health interventions. Trial Registration: ClinicalTrials.gov NCT04351503., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

19. Characterising the epidemic spread of influenza A/H3N2 within a city through phylogenetics.

Author

Müller NF, Wüthrich D, Goldman N, Sailer N, Saalfrank C, Brunner M, Augustin N, Seth-Smith HM, Hollenstein Y, Syedbasha M, Lang D, Neher RA, Dubuis O, Naegele M, Buser A, Nickel CH, Ritz N, Zeller A, Lang BM, Hadfield J, Bedford T, Battegay M, Schneider-Sliwa R, Egli A, and Stadler T

Subjects

Adolescent, Child, Child, Preschool, Cities, Humans, Influenza A Virus, H3N2 Subtype isolation & purification, Influenza, Human transmission, Influenza, Human virology, Phylogeny, Seasons, Switzerland epidemiology, Disease Outbreaks, Epidemics, Influenza A Virus, H3N2 Subtype genetics, Influenza, Human epidemiology

Abstract

Infecting large portions of the global population, seasonal influenza is a major burden on societies around the globe. While the global source sink dynamics of the different seasonal influenza viruses have been studied intensively, its local spread remains less clear. In order to improve our understanding of how influenza is transmitted on a city scale, we collected an extremely densely sampled set of influenza sequences alongside patient metadata. To do so, we sequenced influenza viruses isolated from patients of two different hospitals, as well as private practitioners in Basel, Switzerland during the 2016/2017 influenza season. The genetic sequences reveal that repeated introductions into the city drove the influenza season. We then reconstruct how the effective reproduction number changed over the course of the season. While we did not find that transmission dynamics in Basel correlate with humidity or school closures, we did find some evidence that it may positively correlated with temperature. Alongside the genetic sequence data that allows us to see how individual cases are connected, we gathered patient information, such as the age or household status. Zooming into the local transmission outbreaks suggests that the elderly were to a large extent infected within their own transmission network. In the remaining transmission network, our analyses suggest that school-aged children likely play a more central role than pre-school aged children. These patterns will be valuable to plan interventions combating the spread of respiratory diseases within cities given that similar patterns are observed for other influenza seasons and cities., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

20. Identification of influenza urban transmission patterns by geographical, epidemiological and whole genome sequencing data: protocol for an observational study.

Author

Egli A, Saalfrank C, Goldman N, Brunner M, Hollenstein Y, Vogel T, Augustin N, Wüthrich D, Seth-Smith HMB, Roth E, Syedbasha M, Mueller NF, Vogt D, Bauer J, Amar-Sliwa N, Meinel DM, Dubuis O, Naegele M, Tschudin-Sutter S, Buser A, Nickel CH, Zeller A, Ritz N, Battegay M, Stadler T, and Schneider-Sliwa R

Subjects

Clinical Trial Protocols as Topic, Female, Humans, Influenza, Human genetics, Influenza, Human prevention & control, Male, Observational Studies as Topic, Retrospective Studies, Seasons, Switzerland, Genome, Viral, Influenza, Human diagnosis, Orthomyxoviridae isolation & purification, Population Surveillance, Whole Genome Sequencing methods

Abstract

Introduction: Urban transmission patterns of influenza viruses are complex and poorly understood, and multiple factors may play a critical role in modifying transmission. Whole genome sequencing (WGS) allows the description of patient-to-patient transmissions at highest resolution. The aim of this study is to explore urban transmission patterns of influenza viruses in high detail by combining geographical, epidemiological and immunological data with WGS data., Methods and Analysis: The study is performed at the University Hospital Basel, University Children's Hospital Basel and a network of paediatricians and family doctors in the Canton of Basel-City, Switzerland. The retrospective study part includes an analysis of PCR-confirmed influenza cases from 2013 to 2018. The prospective study parts include (1) a household survey regarding influenza-like illness (ILI) and vaccination against influenza during the 2015/2016 season; (2) an analysis of influenza viruses collected during the 2016/2017 season using WGS-viral genomic sequences are compared with determine genetic relatedness and transmissions; and (3) measurement of influenza-specific antibody titres against all vaccinated and circulated strains during the 2016/2017 season from healthy individuals, allowing to monitor herd immunity across urban quarters. Survey data and PCR-confirmed cases are linked to data from the Statistics Office of the Canton Basel-City and visualised using geo-information system mapping. WGS data will be analysed in the context of patient epidemiological data using phylodynamic analyses, and the obtained herd immunity for each quarter. Profound knowledge on the key geographical, epidemiological and immunological factors influencing urban influenza transmission will help to develop effective counter measurements., Ethics and Dissemination: The study is registered and approved by the regional ethics committee as an observational study (EKNZ project ID 2015-363 and 2016-01735). It is planned to present the results at conferences and publish the data in scientific journals., Trial Registration Number: NCT03010007., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2019. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2019