Your search keyword '"Anthony Blin"' showing total 11 results

1. Quantification of the spread of SARS-CoV-2 variant B.1.1.7 in Switzerland

Author

Chaoran Chen, Sarah Ann Nadeau, Ivan Topolsky, Marc Manceau, Jana S. Huisman, Kim Philipp Jablonski, Lara Fuhrmann, David Dreifuss, Katharina Jahn, Christiane Beckmann, Maurice Redondo, Christoph Noppen, Lorenz Risch, Martin Risch, Nadia Wohlwend, Sinem Kas, Thomas Bodmer, Tim Roloff, Madlen Stange, Adrian Egli, Isabella Eckerle, Laurent Kaiser, Rebecca Denes, Mirjam Feldkamp, Ina Nissen, Natascha Santacroce, Elodie Burcklen, Catharine Aquino, Andreia Cabral de Gouvea, Maria Domenica Moccia, Simon Grüter, Timothy Sykes, Lennart Opitz, Griffin White, Laura Neff, Doris Popovic, Andrea Patrignani, Jay Tracy, Ralph Schlapbach, Emmanouil T. Dermitzakis, Keith Harshman, Ioannis Xenarios, Henri Pegeot, Lorenzo Cerutti, Deborah Penet, Anthony Blin, Melyssa Elies, Christian L. Althaus, Christian Beisel, Niko Beerenwinkel, Martin Ackermann, and Tanja Stadler

Subjects

Pandemic, SARS-CoV-2, COVID-19, B.1.1.7, Transmission advantage, Infectious and parasitic diseases, RC109-216

Abstract

Background: In December 2020, the United Kingdom (UK) reported a SARS-CoV-2 Variant of Concern (VoC) which is now named B.1.1.7. Based on initial data from the UK and later data from other countries, this variant was estimated to have a transmission fitness advantage of around 40–80 % (Volz et al., 2021; Leung et al., 2021; Davies et al., 2021). Aim: This study aims to estimate the transmission fitness advantage and the effective reproductive number of B.1.1.7 through time based on data from Switzerland. Methods: We generated whole genome sequences from 11.8 % of all confirmed SARS-CoV-2 cases in Switzerland between 14 December 2020 and 11 March 2021. Based on these data, we determine the daily frequency of the B.1.1.7 variant and quantify the variant’s transmission fitness advantage on a national and a regional scale. Results: We estimate B.1.1.7 had a transmission fitness advantage of 43–52 % compared to the other variants circulating in Switzerland during the study period. Further, we estimate B.1.1.7 had a reproductive number above 1 from 01 January 2021 until the end of the study period, compared to below 1 for the other variants. Specifically, we estimate the reproductive number for B.1.1.7 was 1.24 [1.07–1.41] from 01 January until 17 January 2021 and 1.18 [1.06–1.30] from 18 January until 01 March 2021 based on the whole genome sequencing data. From 10 March to 16 March 2021, once B.1.1.7 was dominant, we estimate the reproductive number was 1.14 [1.00–1.26] based on all confirmed cases. For reference, Switzerland applied more non-pharmaceutical interventions to combat SARS-CoV-2 on 18 January 2021 and lifted some measures again on 01 March 2021. Conclusion: The observed increase in B.1.1.7 frequency in Switzerland during the study period is as expected based on observations in the UK. In absolute numbers, B.1.1.7 increased exponentially with an estimated doubling time of around 2–3.5 weeks. To monitor the ongoing spread of B.1.1.7, our plots are available online.

Published

2021

2. Quantification of the spread of SARS-CoV-2 variant B.1.1.7 in Switzerland

Author

Christoph Noppen, Doris Popovic, Christian L. Althaus, Lorenz Risch, Olivier Kobel, Deborah Penet, Sinem Kas, Martin Ackermann, Chaoran Chen, Ivan Topolsky, Lara Fuhrmann, Ina Nissen, Katharina Jahn, Rebecca Denes, Melyssa Elies, Christiane Beckmann, Keith Harshman, Christian Beisel, Tim Roloff, Simon Grüter, Natascha Santacroce, Kim Philipp Jablonski, Nadia Wohlwend, Maria Domenica Moccia, Catharine Aquino, Adrian Egli, Niko Beerenwinkel, Lennart Opitz, Maurice Redondo, Henri Pegeot, Jana S. Huisman, Thomas Bodmer, Laurent Kaiser, Ioannis Xenarios, Ralph Schlapbach, Andreia Cabral de Gouvea, Madlen Stange, Sarah Nadeau, Laura Neff, Jay Tracy, David Dreifuss, Elodie Burcklen, Tanja Stadler, Griffin White, Isabella Eckerle, Marc Manceau, Anthony Blin, Lorenzo Cerutti, Mirjam Feldkamp, Emmanouil T. Dermitzakis, Martin Risch, Andrea Patrignani, and Timothy Sykes

Subjects

2019-20 coronavirus outbreak, Transmission (mechanics), Surveillance data, Coronavirus disease 2019 (COVID-19), law, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Statistics, Point estimation, Biology, law.invention

Abstract

BackgroundIn December 2020, the United Kingdom (UK) reported a SARS-CoV-2 Variant of Concern (VoC) which is now named B.1.1.7. Based on initial data from the UK and later data from other countries, this variant was estimated to have a transmission fitness advantage of around 40-80% [1, 2, 3].AimThis study aims to estimate the transmission fitness advantage and the effective reproductive number of B.1.1.7 through time based on data from Switzerland.MethodsWe generated whole genome sequences from 11.8% of all confirmed SARS-CoV-2 cases in Switzerland between 14 December 2020 and 11 March 2021. Based on these data, we determine the daily frequency of the B.1.1.7 variant and quantify the variant’s transmission fitness advantage on a national and a regional scale.ResultsWe estimate B.1.1.7 had a transmission fitness advantage of 43-52% compared to the other variants circulating in Switzerland during the study period. Further, we estimate B.1.1.7 had a reproductive number above 1 from 01 January 2021 until the end of the study period, compared to below 1 for the other variants. Specifically, we estimate the reproductive number for B.1.1.7 was 1.24 [1.07-1.41] from 01 January until 17 January 2021 and 1.18 [1.06-1.30] from 18 January until 01 March 2021 based on the whole genome sequencing data. From 10 March to 16 March 2021, once B.1.1.7 was dominant, we estimate the reproductive number was 1.14 [1.00-1.26] based on all confirmed cases. For reference, Switzerland applied more non-pharmaceutical interventions to combat SARS-CoV-2 on 18 January 2021 and lifted some measures again on 01 March 2021.ConclusionThe observed increase in B.1.1.7 frequency in Switzerland during the study period is as expected based on observations in the UK. In absolute numbers, B.1.1.7 increased exponentially with an estimated doubling time of around 2-3.5 weeks. To monitor the ongoing spread of B.1.1.7, our plots are available online.

Published

2021

3. Circulating tumor DNA as a non-invasive substitute to metastasis biopsy for tumor genotyping and personalized medicine in a prospective trial across all tumor types

Author

Adrien Saliou, Ronald Lebofsky, Maud Kamal, François-Clément Bidard, Charles Decraene, Gaëlle Pierron, Olivier Lantz, Virginie Bernard, Quentin Leroy, Christophe Le Tourneau, Etienne Rouleau, Anthony Blin, Jean-Yves Pierga, Jordan Madic, Marc-Henri Stern, Thomas Rio Frio, Céline Callens, and Ivan Bièche

Subjects

Oncology, Cancer Research, medicine.medical_specialty, Pathology, Genotyping Techniques, Biopsy, Biology, medicine.disease_cause, DNA sequencing, Metastasis, Gene Frequency, Neoplasms, Internal medicine, Genetics, medicine, Humans, Neoplasm Metastasis, Precision Medicine, Liquid biopsy, Genotyping, Research Articles, Aged, Aged, 80 and over, Mutation, medicine.diagnostic_test, business.industry, DNA, Neoplasm, General Medicine, Middle Aged, Neoplastic Cells, Circulating, medicine.disease, Circulating Cell-Free DNA, Molecular Medicine, Female, Personalized medicine, business

Abstract

Cell‐free tumor DNA (ctDNA) has the potential to enable non‐invasive diagnostic tests for personalized medicine in providing similar molecular information as that derived from invasive tumor biopsies. The histology‐independent phase II SHIVA trial matches patients with targeted therapeutics based on previous screening of multiple somatic mutations using metastatic biopsies. To evaluate the utility of ctDNA in this trial, as an ancillary study we performed de novo detection of somatic mutations using plasma DNA compared to metastasis biopsies in 34 patients covering 18 different tumor types, scanning 46 genes and more than 6800 COSMIC mutations with a multiplexed next‐generation sequencing panel. In 27 patients, 28 of 29 mutations identified in metastasis biopsies (97%) were detected in matched ctDNA. Among these 27 patients, one additional mutation was found in ctDNA only. In the seven other patients, mutation detection from metastasis biopsy failed due to inadequate biopsy material, but was successful in all plasma DNA samples providing three more potential actionable mutations. These results suggest that ctDNA analysis is a potential alternative and/or replacement to analyses using costly, harmful and lengthy tissue biopsies of metastasis, irrespective of cancer type and metastatic site, for multiplexed mutation detection in selecting personalized therapies based on the patient's tumor genetic content.

Published

2014

4. Abstract 2400: Circulating tumor DNA as a non-invasive substitute to metastasis biopsy for targeted sequencing in a prospective randomized trial for personalized treatment in all tumor type: The SHIVA study

Author

Céline Callens, Ivan Bièche, Quentin Leroy, Charles Decraene, Gaëlle Pierron, Christophe Le Tourneau, Maud Kamal, François-Clément Bidard, Olivier Lantz, Marc-Henri Stern, Virginie Bernard, Adrien Saliou, Etienne Rouleau, Anthony Blin, Jordan Madic, Thomas Rio Frio, Jean-Yves Pierga, and Ronald Lebofsky

Subjects

Oncology, Cancer Research, medicine.medical_specialty, Pathology, medicine.diagnostic_test, business.industry, medicine.medical_treatment, Ion semiconductor sequencing, medicine.disease, DNA sequencing, Targeted therapy, Metastasis, law.invention, Randomized controlled trial, law, Internal medicine, Biopsy, medicine, Tumor type, Personalized medicine, business

Abstract

Proceedings: AACR 106th Annual Meeting 2015; April 18-22, 2015; Philadelphia, PA Rationale: The noninvasive biomarker circulating cell-free tumor DNA (ctDNA) has the potential to enable noninvasive diagnostic tests for personalized medicine in providing similar molecular information as that derived from invasive tumor biopsies. The ongoing large multicentric randomized histology-independent phase II trial (SHIVA, [NCT01771458][1]) compares molecularly targeted therapy based on tumor molecular profiling versus conventional therapy in patients with any type of refractory cancer. The screening phase consists of the invasive biopsy of metastatic tumor tissue and downstream analysis using Ion Torrent's Ampliseq hotspot cancer panel. We evaluated whether ctDNA analysis would identify the same mutations as those obtained through invasive biopsy. Patients and methods: de novo detection of somatic mutations using ctDNA in 34 patients covering 18 different tumor types, scanning ∼50 genes and more than 2500 mutations with a multiplexed next generation sequencing panel. Results: In 27 patients, 27 of 28 actionable mutations identified in metastasis biopsies (96%) were detected in matched ctDNA. Among these 27 patients, two additional mutations were found in ctDNA only. In the seven other patients, mutation detection from metastasis biopsy failed due to inadequate biopsy material, but was successful in all plasma DNA samples providing three more potential actionable mutations. Conclusion; These results suggest that ctDNA analysis is a cheaper, safer and quicker alternative to invasive biopsy of metastasis, irrespective of cancer type and metastatic site, for multiplexed mutation detection in selecting personalized therapies based on the patient's tumor genetic content. Citation Format: Jean-Yves Pierga, Charles Decraene, Virginie Bernard, Maud Kamal, Anthony Blin, Quentin Leroy, Thomas Rio Frio, Gaelle Pierron, Celine Callens, Ivan Bieche, Adrien Saliou, Jordan Madic, Etienne Rouleau, Francois-Clement Bidard, Olivier Lantz, Marc-Henri Stern, Ronald Lebofsky, Christophe Le Tourneau. Circulating tumor DNA as a non-invasive substitute to metastasis biopsy for targeted sequencing in a prospective randomized trial for personalized treatment in all tumor type: The SHIVA study. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 2400. doi:10.1158/1538-7445.AM2015-2400 [1]: /lookup/external-ref?link_type=CLINTRIALGOV&access_num=NCT01771458&atom=%2Fcanres%2F75%2F15_Supplement%2F2400.atom

Published

2015

5. De Novo Mutation Detection from Ctdna Correlates with Variants Detected on Metastasis of Patients with Any Kind of Refractory Cancer from the Shiva Trial

Author

Anthony Blin, F-C Bidard, Charles Decraene, Xavier Paoletti, Virginie Bernard, J-Y Pierga, Ronald Lebofsky, C. Le Tourneau, T. Rio Frio, M-H Stern, Nicolas Servant, and Maud Kamal

Subjects

Oncology, medicine.medical_specialty, Pathology, medicine.diagnostic_test, business.industry, medicine.medical_treatment, Disease progression, Phases of clinical research, Hematology, medicine.disease, Refractory cancer, Metastasis, Targeted therapy, medicine.anatomical_structure, Internal medicine, Biopsy, medicine, Mutation detection, business, Cervix

Abstract

Aim: The ability to perform molecular analyses on circulating tumor DNA (ctDNA) is a promising non-invasive tool to determine tumor genomic alterations. Liquid biopsies may provide information when the biopsy is not available, and address tumor heterogeneity. Multiple sampling and ctDNA analysis over time allows identification of emerging predictive biomarkers and collection of pharmacodynamic data. The aim of this study was to assess whether targeted sequencing on ctDNA permits the detection of the same mutations observed on solid tumor from the same patient. Methods: SHIVA is a multicentric randomized proof-of-concept phase II trial comparing molecularly targeted therapy based on tumor molecular profiling of a mandatory biopsy of a metastatic site versus conventional therapy in patients with any type of refractory cancer (Le Tourneau et al., BJC 2014). The molecular profile within SHIVA is performed on a mandatory biopsy and includes mutation analyses using AmpliSeq cancer panel (Life Technologies®). Blood samples for ctDNA analyses are taken before starting treatment, between day 7 and day 15, at first tumor evaluation, and at disease progression. The same approach was applied here to ctDNA before treatment and mutational profiles were compared to those from tumor biopsies. The bioinformatics analysis was done in a blinded manner. Results: ctDNA analysis was done on 19 patients including 3 patients with tumor biopsy not eligible for analysis. The mutation(s) identified from the solid tumor biopsy was confirmed in all corresponding blood samples (16/16) and 1 mutation was identified de novo in a patient whose tumor biopsy was uninformative. Tumor types included breast (5), lung (3), ovary (2), cervix (2) among others. Median ctDNA amount was 37 ng/mL [range: 7- 423]. Conclusions: Our results suggest that targeted sequencing of ctDNA across a panel of genes can reliably detect tumor sample mutations de novo without any a priori information from the tumor biopsy. Further analyses on ctDNA from different time points of the patient's treatment will give more insight into the potential of liquid biopsies to follow up disease progression and response to treatment. Disclosure: All authors have declared no conflicts of interest.

Published

2014

6. Economic evaluation of the Midwifery Initiated Oral Health-Dental Service programme in Australia

Author

Hannah G Dahlen, Maree Johnson, John Skinner, Ajesh George, Kathy W Tannous, Moin Uddin Ahmed, Anthony Blinkhorn, Shilpi Ajwani, Sameer Bhole, Albert Yaacoub, and Ravi Srinivas

Subjects

Medicine

Abstract

Objectives To critically evaluate the cost-effectiveness of the Midwifery Initiated Oral Health-Dental Service (MIOH-DS) designed to improve oral health of pregnant Australian women. Previous efficacy and process evaluations of MIOH-DS showed positive outcomes and improvements across various measures.Design and setting The evaluation used a cost-utility model based on the initial study design of the MIOH-DS trial in Sydney, Australia from the perspective of public healthcare provider for a duration of 3 months to 4 years.Participants Data were sourced from pregnant women (n=638), midwives (n=17) and dentists (n=3) involved in the MIOH trial and long-term follow-up.Cost measures Data included in analysis were the cost of the time required by midwives and dentists to deliver the intervention and the cost of dental treatment provided. Costs were measured using data on utilisation and unit price of intervention components and obtained from a micro-costing approach.Outcome measures Utility was measured as the number of Disability Adjusted Life Years (DALYs) from health-benefit components of the intervention. Three cost-effectiveness analyses were undertaken using different comparators, thresholds and time scenarios.Results Compared with current practice, midwives only intervention meets the Australian threshold (A$50 000) of being cost-effective. The midwives and accessible/affordable dentists joint intervention was only ‘cost-effective’ in 6 months or beyond scenarios. When the midwife only intervention is the comparator, the midwife/dentist programme was ‘cost-effective’ in all scenarios except at 3 months scenario.Conclusions The midwives’ only intervention providing oral health education, assessment and referral to existing dental services was cost-effective, and represents a low cost intervention. Midwives’ and dentists’ combined interventions were cost-effective when the benefits were considered over longer periods. The findings highlight short and long term economic benefits of the programme and support the need for policymakers to consider adding an oral health component into antenatal care Australia wide.Trial registration number ACTRN12612001271897; Post-results.

Published

2021

7. Effectiveness of preventive dental programs offered to mothers by non-dental professionals to control early childhood dental caries: a review

Author

Ajesh George, Mariana S. Sousa, Ariana C. Kong, Anthony Blinkhorn, Tiffany Patterson Norrie, Jann Foster, Hannah G. Dahlen, Shilpi Ajwani, and Maree Johnson

Subjects

Early childhood, Dental decay, Non-dental professionals, Dentistry, RK1-715

Abstract

Abstract Background Early childhood caries is a common chronic childhood disease and maternal oral health is a risk factor. Improving the oral health behaviours of pregnant women/young mothers can positively influence the oral health of children and reduce their caries risk. Such preventative strategies have been undertaken by non-dental professionals producing mixed results encompassing various interventions across the perinatal period. However, no comprehensive review of these studies has been undertaken. The aim of this review was to assess the effectiveness of maternal oral health programs undertaken during the antenatal and/or postnatal period by non-dental health professionals to reduce early childhood caries. Methods A systematic search of five databases was undertaken using key search terms. Studies were included if they (a) involved quantitative study designs with a control; (b) were published in English; (c) reported on interventions delivered by non-dental professionals (d) delivered the intervention to expectant mothers or mothers with young infants up to 24 months; (e) measured outcomes when the child was under 5 years; (f) measured changes in oral health outcomes of children clinically and oral health behaviours of mothers or children. No restrictions were placed on the study quality and setting. Results Nine studies met the inclusion criteria and involved interventions delivered by diverse non-dental professionals across the antenatal (n = 1), postnatal (n = 6) and perinatal period (n = 2). Most studies were of low methodological quality (n = 6). The interventions focussed on oral health education (n = 8), dental referrals (n = 3) and oral health assessments (n = 1). Interventions conducted in either the postnatal or antenatal periods showed meaningful improvements in children’s clinical and mother’s behavioural oral health outcomes. The outcomes appear to be sustained when a suite of interventions were used along with referral reminders. There were mixed results from interventions across the perinatal period. Conclusions Non-dental professionals can promote maternal oral health by providing oral health education, risk assessment and referrals. Combining these interventions could provide a sustained improvement in oral health outcomes for children although current evidence is weak. More high-quality studies are needed to confirm these findings and determine whether the antenatal and/or postnatal period is best suited to deliver these interventions.

Published

2019

8. Enabling Aboriginal dental assistants to apply fluoride varnish for school children in communities with a high Aboriginal population in New South Wales, Australia: a study protocol for a feasibility study

Author

Yvonne Dimitropoulos, Anthony Blinkhorn, Michelle Irving, John Skinner, Steven Naoum, Alexander Holden, Angela Masoe, Boe Rambaldini, Vita Christie, Heiko Spallek, and Kylie Gwynne

Subjects

Fluorides, Topical, Dental assistants, Oral health, Aboriginal, Medicine (General), R5-920

Abstract

Abstract Background Australian Aboriginal children experience high levels of dental caries (tooth decay) and are less likely to access preventive dental health services. High-strength fluoride varnish has been shown to reduce the incidence of dental caries and is commonly used in community-based preventive dental health service programs. In New South Wales, Australia, the application of fluoride varnish is restricted to dental and medical professionals. This is problematic in communities with a high Aboriginal population and limited access to oral health services, contributing to the increased risk of developing dental caries in Aboriginal children. Dental assistants are essential members of the oral health team; however, they do not have a defined scope of practice in Australia. Other countries have created formal scopes of practice for dental assistants to include the application of fluoride varnish. This protocol presents a pathway for qualified Aboriginal dental assistants to undertake additional training to legally apply fluoride varnish in New South Wales. The primary objective of this study will be to evaluate the feasibility and acceptability of utilising Aboriginal dental assistants to apply fluoride varnish to Aboriginal children in a school setting at regular 3-month intervals. Methods Six schools across New South Wales (NSW) that enrol at least 12% Aboriginal children will be invited to participate in the 12-month study. Aboriginal children aged 5–12 years enrolled in these schools will be enrolled in the study. Six Aboriginal dental assistants will undertake training to apply fluoride varnish. Fluoride varnish (Duraphat) will be applied at 3-month intervals by the dental assistants to the teeth using a small brush. An evaluation will be undertaken to determine the feasibility and cost-effectiveness of this innovative approach. This study protocol has been approved by the NSW Aboriginal Health and Medical Research Council and the NSW State Education Research Application Process. Discussion A qualified Aboriginal dental assistant workforce in NSW (or Australia) legally approved to apply fluoride varnish may increase the sustainability and scalability of fluoride varnish programs and improve the oral health of Aboriginal children in Australia. Trial registration ISRCTN26746753.

Published

2019

9. An assessment of strategies to control dental caries in Aboriginal children living in rural and remote communities in New South Wales, Australia

Author

Yvonne Dimitropoulos, Alexander Holden, Kylie Gwynne, Michelle Irving, Norma Binge, and Anthony Blinkhorn

Subjects

Aboriginal, Oral health promotion, Community, Dentistry, RK1-715

Abstract

Abstract Background A community-led oral health service for Aboriginal people in Central Northern NSW identified the need for oral health promotion, as well as dental treatment; in three remote communities with limited access to dental services. A three-stage plan based on the Precede-Proceed model was used to develop a school-based preventive oral health program. The program will be piloted in three schools over 12 months aimed at improving the oral health of local Aboriginal children. Methods The proposed program includes four components: daily in-school toothbrushing; distribution of free fluoride toothpaste and toothbrushes; in-school and community dental health education and the installation of refrigerated and chilled water fountains to supply a school water bottle program. Primary school children will be issued toothbrushing kits to be kept at school to facilitate daily brushing using a fluoride toothpaste under the supervision of trained teachers and/or Oral Health Aides. School children, parents and guardians will be issued free fluoride toothpaste and toothbrushes for home use at three-monthly intervals. Four dental health education sessions will be delivered to children at each school and parents/guardians at local community health centres over the 12 month pilot. Dental education will be delivered by an Oral Health Therapist and local Aboriginal Dental Assistant. The program will also facilitate the installation of refrigerated and filtered water fountain to ensure cold and filtered water is available at schools. A structured school water bottle program will encourage the consumption of water. A process evaluation will be undertaken to assess the efficiency, feasibility and effectiveness of the pilot program. Discussion The proposed program includes four core evidence-based components which can be implemented in rural and remote schools with a high Aboriginal population. Based on the Precede-Proceed model, this program seeks to empower the local Aboriginal community to achieve improved oral health outcomes. Trial registration TRN: ISRCTN16110292 Date of Registration: 20 June 2018.

Published

2018

10. Factors associated with dental caries experience and oral health status among New South Wales adolescents

Author

John Skinner, George Johnson, Anthony Blinkhorn, and Roy Byun

Subjects

dental caries, adolescent health, tooth brushing, socioeconomic status, fluoridation, Public aspects of medicine, RA1-1270

Abstract

Abstract Objective: To investigate the potential social and behavioural risk factors influencing the oral health of teenagers aged 14 and 15 years living in New South Wales Australia. Methods: Quantitative and qualitative methodologies were used in this research project. Data were obtained from both the clinical and questionnaire components of the NSW Teen Dental Survey 2010 and were analysed in SAS 9.2. The analyses allowed for various demographic and behavioural risk factors to be assessed using caries experience, severe caries and DMFT (decayed, missing or filled teeth) counts as the key outcome variables. Results: Of the 1,256 14– and 15‐year‐olds who had a dental examination, 1,199 (95.5%) provided questionnaire data. The clinical examinations found that 44.4% of teenagers overall had caries experience in at least one tooth, while 10.6% of the sample had experienced severe caries. Severe dental caries was found to be significantly related to a variety of factors, including family income, fluoridation status, tooth brushing behaviour and sugary drink consumption. Conclusions: The oral health of 14– and 15‐year‐olds in NSW is influenced by social and dietary factors as well as access to fluoridated water supplies. There was also a strong relationship between self‐rated oral health status with DMFT and with caries experience. Implications: The findings of this study will assist policy makers by highlighting the current caries risk factors that should be part of future health promotion programs.

Published

2014

11. Quantification of the spread of SARS-CoV-2 variant B.1.1.7 in Switzerland

Author

Chaoran Chen, Isabella Eckerle, Marc Manceau, Maria Domenica Moccia, Lennart Opitz, Adrian Egli, Lorenz Risch, Sarah Nadeau, Griffin White, Martin Ackermann, Laura Neff, Sinem Kas, Anthony Blin, Ina Nissen, Thomas Bodmer, Keith Harshman, Katharina Jahn, Jana S. Huisman, Andrea Patrignani, Tim Roloff, Niko Beerenwinkel, Elodie Burcklen, Tanja Stadler, Ralph Schlapbach, Melyssa Elies, Rebecca Denes, Simon Grüter, Christiane Beckmann, Kim Philipp Jablonski, Christian Beisel, Timothy Sykes, Christoph Noppen, Doris Popovic, Lorenzo Cerutti, Nadia Wohlwend, Henri Pegeot, Emmanouil T. Dermitzakis, Catharine Aquino, Jay Tracy, Andreia Cabral de Gouvea, David Dreifuss, Martin Risch, Mirjam Feldkamp, Lara Fuhrmann, Natascha Santacroce, Maurice Redondo, Christian L. Althaus, Deborah Penet, Laurent Kaiser, Ivan Topolsky, Madlen Stange, and Ioannis Xenarios

Subjects

2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), Epidemiology, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), 610 Medicine & health, Infectious and parasitic diseases, RC109-216, Biology, Time based, Microbiology, Article, law.invention, law, 360 Social problems & social services, Virology, Humans, Transmission advantage, B.1.1.7, ddc:616, Pandemic, SARS-CoV-2, Public Health, Environmental and Occupational Health, COVID-19, United Kingdom, Infectious Diseases, Transmission (mechanics), ddc:540, Parasitology, Switzerland, Demography

Abstract

Background: In December 2020, the United Kingdom (UK) reported a SARS-CoV-2 Variant of Concern (VoC) which is now named B.1.1.7. Based on initial data from the UK and later data from other countries, this variant was estimated to have a transmission fitness advantage of around 40–80 % (Volz et al., 2021; Leung et al., 2021; Davies et al., 2021). Aim: This study aims to estimate the transmission fitness advantage and the effective reproductive number of B.1.1.7 through time based on data from Switzerland. Methods: We generated whole genome sequences from 11.8 % of all confirmed SARS-CoV-2 cases in Switzerland between 14 December 2020 and 11 March 2021. Based on these data, we determine the daily frequency of the B.1.1.7 variant and quantify the variant's transmission fitness advantage on a national and a regional scale. Results: We estimate B.1.1.7 had a transmission fitness advantage of 43–52 % compared to the other variants circulating in Switzerland during the study period. Further, we estimate B.1.1.7 had a reproductive number above 1 from 01 January 2021 until the end of the study period, compared to below 1 for the other variants. Specifically, we estimate the reproductive number for B.1.1.7 was 1.24 [1.07–1.41] from 01 January until 17 January 2021 and 1.18 [1.06–1.30] from 18 January until 01 March 2021 based on the whole genome sequencing data. From 10 March to 16 March 2021, once B.1.1.7 was dominant, we estimate the reproductive number was 1.14 [1.00–1.26] based on all confirmed cases. For reference, Switzerland applied more non-pharmaceutical interventions to combat SARS-CoV-2 on 18 January 2021 and lifted some measures again on 01 March 2021. Conclusion: The observed increase in B.1.1.7 frequency in Switzerland during the study period is as expected based on observations in the UK. In absolute numbers, B.1.1.7 increased exponentially with an estimated doubling time of around 2–3.5 weeks. To monitor the ongoing spread of B.1.1.7, our plots are available online., Epidemics, 37, ISSN:1878-0067, ISSN:1755-4365