Your search keyword '"Robert Varro"' showing total 8 results

1. Rapid emergence of transmissible SARS-CoV-2 variants in mild community cases

Author

Michael A. Crone, Seran Hakki, Joe Fenn, Jie Zhou, Carolina Rosadas de Oliveira, Kieran J. Madon, Aleksandra Koycheva, Anjna Badhan, Jakob Jonnerby, Sean Nevin, Emily Conibear, Romain Derelle, Robert Varro, Constanta Luca, Shazaad Ahmad, Maria Zambon, Wendy S. Barclay, Jake Dunning, Paul S. Freemont, Graham P. Taylor, and Ajit Lalvani

Subjects

SARS-CoV-2, COVID-19, community, variants, immune escape, immunodeficiency, Microbiology, QR1-502

Published

2024

2. Protocol for the challenge non-typhoidal Salmonella (CHANTS) study: a first-in-human, in-patient, double-blind, randomised, safety and dose-escalation controlled human infection model in the UK

Author

Melita A Gordon, Christopher Smith, Xinxue Liu, Andrew J Pollard, Emma Smith, Graham S Cooke, Robert K M Choy, Anna Rydlova, Robert Varro, Jay C D Hinton, Christopher Chiu, and Malick M Gibani

Subjects

Medicine

Abstract

Introduction Invasive non-typhoidal Salmonella (iNTS) serovars are a major cause of community-acquired bloodstream infections in sub-Saharan Africa (SSA). In this setting, Salmonella enterica serovar Typhimurium accounts for two-thirds of infections and is associated with an estimated case fatality rate of 15%–20%. Several iNTS vaccine candidates are in early-stage assessment which—if found effective—would provide a valuable public health tool to reduce iNTS disease burden. The CHANTS study aims to develop a first-in-human Salmonella Typhimurium controlled human infection model, which can act as a platform for future vaccine evaluation, in addition to providing novel insights into iNTS disease pathogenesis.Methods and analysis This double-blind, safety and dose-escalation study will randomise 40–80 healthy UK participants aged 18–50 to receive oral challenge with one of two strains of S. Typhimurium belonging to the ST19 (strain 4/74) or ST313 (strain D23580) lineages. 4/74 is a global strain often associated with diarrhoeal illness predominantly in high-income settings, while D23580 is an archetypal strain representing invasive disease-causing isolates found in SSA. The primary objective is to determine the minimum infectious dose (colony-forming unit) required for 60%–75% of participants to develop clinical or microbiological features of systemic salmonellosis. Secondary endpoints are to describe and compare the clinical, microbiological and immunological responses following challenge. Dose escalation or de-escalation will be undertaken by continual-reassessment methodology and limited within prespecified safety thresholds. Exploratory objectives are to describe mechanisms of iNTS virulence, identify putative immune correlates of protection and describe host–pathogen interactions in response to infection.Ethics and dissemination Ethical approval has been obtained from the NHS Health Research Authority (London—Fulham Research Ethics Committee 21/PR/0051; IRAS Project ID 301659). The study findings will be disseminated in international peer-reviewed journals and presented at national/international stakeholder meetings. Study outcome summaries will be provided to both funders and participants.Trial registration number NCT05870150

Published

2024

3. Cross-reactive memory T cells associate with protection against SARS-CoV-2 infection in COVID-19 contacts

Author

Rhia Kundu, Janakan Sam Narean, Lulu Wang, Joseph Fenn, Timesh Pillay, Nieves Derqui Fernandez, Emily Conibear, Aleksandra Koycheva, Megan Davies, Mica Tolosa-Wright, Seran Hakki, Robert Varro, Eimear McDermott, Sarah Hammett, Jessica Cutajar, Ryan S. Thwaites, Eleanor Parker, Carolina Rosadas, Myra McClure, Richard Tedder, Graham P. Taylor, Jake Dunning, and Ajit Lalvani

Subjects

Science

Abstract

While cross-reactive immunity between human coronavirus and SARS-CoV-2 may contribute to host protection, validating evidences are still scarce. Here the authors assess a cohort of 52 donors with immediate-early contact with SARS-CoV-2 to correlate higher frequency of cross-reactive T cells with lower infection rate.

Published

2022

4. Onset and window of SARS-CoV-2 infectiousness and temporal correlation with symptom onset: a prospective, longitudinal, community cohort study

Author

Seran Hakki, Jie Zhou, Jakob Jonnerby, Anika Singanayagam, Jack L Barnett, Kieran J Madon, Aleksandra Koycheva, Christine Kelly, Hamish Houston, Sean Nevin, Joe Fenn, Rhia Kundu, Michael A Crone, Timesh D Pillay, Shazaad Ahmad, Nieves Derqui-Fernandez, Emily Conibear, Paul S Freemont, Graham P Taylor, Neil Ferguson, Maria Zambon, Wendy S Barclay, Jake Dunning, Ajit Lalvani, Anjna Badhan, Robert Varro, Constanta Luca, Valerie Quinn, Jessica Cutajar, Niamh Nichols, Jessica Russell, Holly Grey, Anjeli Ketkar, Giulia Miserocchi, Chitra Tejpal, Harriet Catchpole, Koji Nixon, Berenice Di Biase, Tamara Hopewell, Janakan Sam Narean, Jada Samuel, Kristel Timcang, Eimear McDermott, Samuel Bremang, Sarah Hammett, Samuel Evetts, Alexandra Kondratiuk, National Institute for Health Research (NIHR), Imperial College Healthcare NHS Trust- BRC Funding, Medical Research Council (MRC), and UK DRI Ltd

Subjects

Cohort Studies, Pulmonary and Respiratory Medicine, SARS-CoV-2, Humans, COVID-19, RNA, Viral, ATACCC study investigators, Bayes Theorem, 1103 Clinical Sciences, Prospective Studies, 1117 Public Health and Health Services, 1199 Other Medical and Health Sciences

Abstract

Background Knowledge of the window of SARS-CoV-2 infectiousness is crucial in developing policies to curb transmission. Mathematical modelling based on scarce empirical evidence and key assumptions has driven isolation and testing policy, but real-world data are needed. We aimed to characterise infectiousness across the full course of infection in a real-world community setting. Methods The Assessment of Transmission and Contagiousness of COVID-19 in Contacts (ATACCC) study was a UK prospective, longitudinal, community cohort of contacts of newly diagnosed, PCR-confirmed SARS-CoV-2 index cases. Household and non-household exposed contacts aged 5 years or older were eligible for recruitment if they could provide informed consent and agree to self-swabbing of the upper respiratory tract. The primary objective was to define the window of SARS-CoV-2 infectiousness and its temporal correlation with symptom onset. We quantified viral RNA load by RT-PCR and infectious viral shedding by enumerating cultivable virus daily across the course of infection. Participants completed a daily diary to track the emergence of symptoms. Outcomes were assessed with empirical data and a phenomenological Bayesian hierarchical model. Findings Between Sept 13, 2020, and March 31, 2021, we enrolled 393 contacts from 327 households (the SARS-CoV-2 pre-alpha and alpha variant waves); and between May 24, 2021, and Oct 28, 2021, we enrolled 345 contacts from 215 households (the delta variant wave). 173 of these 738 contacts were PCR positive for more than one timepoint, 57 of which were at the start of infection and comprised the final study population. The onset and end of infectious viral shedding were captured in 42 cases and the median duration of infectiousness was 5 (IQR 3–7) days. Although 24 (63%) of 38 cases had PCR-detectable virus before symptom onset, only seven (20%) of 35 shed infectious virus presymptomatically. Symptom onset was a median of 3 days before both peak viral RNA and peak infectious viral load (viral RNA IQR 3–5 days, n=38; plaque-forming units IQR 3–6 days, n=35). Notably, 22 (65%) of 34 cases and eight (24%) of 34 cases continued to shed infectious virus 5 days and 7 days post-symptom onset, respectively (survival probabilities 67% and 35%). Correlation of lateral flow device (LFD) results with infectious viral shedding was poor during the viral growth phase (sensitivity 67% [95% CI 59–75]), but high during the decline phase (92% [86–96]). Infectious virus kinetic modelling suggested that the initial rate of viral replication determines the course of infection and infectiousness. Interpretation Less than a quarter of COVID-19 cases shed infectious virus before symptom onset; under a crude 5-day self-isolation period from symptom onset, two-thirds of cases released into the community would still be infectious, but with reduced infectious viral shedding. Our findings support a role for LFDs to safely accelerate deisolation but not for early diagnosis, unless used daily. These high-resolution, community-based data provide evidence to inform infection control guidance. Funding National Institute for Health and Care Research.

Published

2022

5. Rapid emergence of transmissible SARS-CoV-2 variants in mild community cases

Author

Michael A Crone, Seran Hakki, Jie Zhou, Carolina Rosadas de Oliveira, Kieran J Madon, Aleksandra Koycheva, Anjna Badhan, Jakob Jonnerby, Joe Fenn, Rhia Kundu, Jack L Barnett, Sean Nevin, Emily Conibear, Nieves Derqui-Fernandez, Timesh D Pillay, Robert Varro, Constanta Luca, Valerie Quinn, Shazaad Ahmad, Maria Zambon, Wendy S Barclay, Jake Dunning, Paul S Freemont, Graham P Taylor, and Ajit Lalvani

Abstract

SARS-CoV-2 immune-escape variants have only been observed to arise in immunosuppressed COVID-19 cases, during prolonged viral shedding. Through daily longitudinal RT-qPCR, quantitative viral culture and sequencing, we observe for the first time the evolution of transmissible variants harbouring mutations consistent with immune-escape in mild community cases within 2 weeks of infection.

Published

2023

6. Risk factors and vectors for SARS-CoV-2 household transmission: a prospective, longitudinal cohort study

Author

Nieves Derqui, Aleksandra Koycheva, Jie Zhou, Timesh D Pillay, Michael A Crone, Seran Hakki, Joe Fenn, Rhia Kundu, Robert Varro, Emily Conibear, Kieran J Madon, Jack L Barnett, Hamish Houston, Anika Singanayagam, Janakan S Narean, Mica R Tolosa-Wright, Lucy Mosscrop, Carolina Rosadas, Patricia Watber, Charlotte Anderson, Eleanor Parker, Paul S Freemont, Neil M Ferguson, Maria Zambon, Myra O McClure, Richard Tedder, Wendy S Barclay, Jake Dunning, Graham P Taylor, Ajit Lalvani, Jessica Cutajar, Valerie Quinn, Sarah Hammett, Eimèar McDermott, Constanta Luca, Kristel Timcang, Jada Samuel, Samuel Bremang, Samuel Evetts, Lulu Wang, Sean Nevin, Megan Davies, Chitra Tejpal, Mohammed Essoussi, Anjeli V Ketkar, Giulia Miserocchi, Harriet Catchpole, Anjna Badhan, Simon Dustan, Isaac J Day Weber, Federica Marchesin, Michael G Whitfield, John Poh, and Alexandra Kondratiuk

Subjects

Microbiology (medical), Infectious Diseases, Virology, Microbiology

Abstract

BACKGROUND: Despite circumstantial evidence for aerosol and fomite spread of SARS-CoV-2, empirical data linking either pathway with transmission are scarce. Here we aimed to assess whether the presence of SARS-CoV-2 on frequently-touched surfaces and residents' hands was a predictor of SARS-CoV-2 household transmission. METHODS: In this longitudinal cohort study, during the pre-alpha (September to December, 2020) and alpha (B.1.1.7; December, 2020, to April, 2021) SARS-CoV-2 variant waves, we prospectively recruited contacts from households exposed to newly diagnosed COVID-19 primary cases, in London, UK. To maximally capture transmission events, contacts were recruited regardless of symptom status and serially tested for SARS-CoV-2 infection by RT-PCR on upper respiratory tract (URT) samples and, in a subcohort, by serial serology. Contacts' hands, primary cases' hands, and frequently-touched surface-samples from communal areas were tested for SARS-CoV-2 RNA. SARS-CoV-2 URT isolates from 25 primary case-contact pairs underwent whole-genome sequencing (WGS). FINDINGS: From Aug 1, 2020, until March 31, 2021, 620 contacts of PCR-confirmed SARS-CoV-2-infected primary cases were recruited. 414 household contacts (from 279 households) with available serial URT PCR results were analysed in the full household contacts' cohort, and of those, 134 contacts with available longitudinal serology data and not vaccinated pre-enrolment were analysed in the serology subcohort. Household infection rate was 28·4% (95% CI 20·8-37·5) for pre-alpha-exposed contacts and 51·8% (42·5-61·0) for alpha-exposed contacts (p=0·0047). Primary cases' URT RNA viral load did not correlate with transmission, but was associated with detection of SARS-CoV-2 RNA on their hands (p=0·031). SARS-CoV-2 detected on primary cases' hands, in turn, predicted contacts' risk of infection (adjusted relative risk [aRR]=1·70 [95% CI 1·24-2·31]), as did SARS-CoV-2 RNA presence on household surfaces (aRR=1·66 [1·09-2·55]) and contacts' hands (aRR=2·06 [1·57-2·69]). In six contacts with an initial negative URT PCR result, hand-swab (n=3) and household surface-swab (n=3) PCR positivity preceded URT PCR positivity. WGS corroborated household transmission. INTERPRETATION: Presence of SARS-CoV-2 RNA on primary cases' and contacts' hands and on frequently-touched household surfaces associates with transmission, identifying these as potential vectors for spread in households. FUNDING: National Institute for Health Research Health Protection Research Unit in Respiratory Infections, Medical Research Council.

Published

2023

7. Broadening symptom criteria improves early case identification in SARS-CoV-2 contacts

Author

Mica R Tolosa-Wright, Emily Conibear, Jake Dunning, Ajit Lalvani, Nieves Derqui-Fernandez, Jack Barnett, Richard S. Tedder, Graham P. Taylor, J. S. Narean, Timesh D Pillay, Seran Hakki, Aleksandra Koycheva, Rhia Kundu, Jessica Cutajar, Anika Singanayagam, Lulu Wang, Maria Zambon, Neil M. Ferguson, Kieran Madon, Jonathan J Deeks, Hamish Houston, Valerie Quinn, Onn Min Kon, Robert Varro, and Joe Fenn

Subjects

Pulmonary and Respiratory Medicine, medicine.medical_specialty, Diagnostic information, business.industry, SARS-CoV-2, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Headache, COVID-19, Pain, Pharyngitis, Internal medicine, medicine, Sore throat, Humans, Original Research Article, Prospective Studies, medicine.symptom, business, Muscle aches, Case identification, Contact tracing

Abstract

BackgroundThe success of case isolation and contact tracing for the control of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) transmission depends on the accuracy and speed of case identification. We assessed whether inclusion of additional symptoms alongside three canonical symptoms (CS), i.e. fever, cough and loss or change in smell or taste, could improve case definitions and accelerate case identification in SARS-CoV-2 contacts.MethodsTwo prospective longitudinal London (UK)-based cohorts of community SARS-CoV-2 contacts, recruited within 5 days of exposure, provided independent training and test datasets. Infected and uninfected contacts completed daily symptom diaries from the earliest possible time-points. Diagnostic information gained by adding symptoms to the CS was quantified using likelihood ratios and area under the receiver operating characteristic curve. Improvements in sensitivity and time to detection were compared with penalties in terms of specificity and number needed to test.ResultsOf 529 contacts within two cohorts, 164 (31%) developed PCR-confirmed infection and 365 (69%) remained uninfected. In the training dataset (n=168), 29% of infected contacts did not report the CS. Four symptoms (sore throat, muscle aches, headache and appetite loss) were identified as early-predictors (EP) which added diagnostic value to the CS. The broadened symptom criterion “≥1 of the CS, or ≥2 of the EP” identified PCR-positive contacts in the test dataset on average 2 days earlier after exposure (p=0.07) than “≥1 of the CS”, with only modest reduction in specificity (5.7%).ConclusionsBroadening symptom criteria to include individuals with at least two of muscle aches, headache, appetite loss and sore throat identifies more infections and reduces time to detection, providing greater opportunities to prevent SARS-CoV-2 transmission.

Published

2021

8. Community transmission and viral load kinetics of the SARS-CoV-2 delta (B.1.617.2) variant in vaccinated and unvaccinated individuals in the UK: a prospective, longitudinal, cohort study

Author

Jake Dunning, Joanna Ellis, Samuel Evetts, Ajit Lalvani, Michael A. Crone, Timesh D Pillay, Sarah Hammett, Samuel Bremang, Michael G Whitfield, David C. Jackson, Chitra Tejpal, Charlotte Anderson, Anjna Badhan, Wendy S. Barclay, Angie Lackenby, Maria Zambon, Aleksandra Koycheva, Graham P. Taylor, J. S. Narean, Neil M. Ferguson, Nieves Derqui-Fernandez, Anika Singanayagam, Rhia Kundu, Constanta Luca, Joe Fenn, Simon Dustan, Valerie Quinn, Shazaad Ahmad, Jada Samuel, Kieran J Madon, Anjeli V Ketkar, Jessica Cutajar, Paul S. Freemont, Andre Charlett, Seran Hakki, Emily Conibear, Jack L Barnett, Hamish Houston, Eimear McDermott, Robert Varro, John Poh, Shahjahan Miah, National Institute for Health Research (NIHR), Medical Research Council (MRC), and Investigators, ATACCC Study

Subjects

Adult, Male, medicine.medical_specialty, Vaccination Coverage, Microbiology, 1117 Public Health and Health Services, law.invention, Cohort Studies, 1108 Medical Microbiology, law, Internal medicine, Epidemiology, medicine, Credible interval, Humans, Longitudinal Studies, Prospective Studies, Transmission risks and rates, Science & Technology, SARS-CoV-2, Variant type, business.industry, Vaccination, COVID-19, 1103 Clinical Sciences, Articles, Middle Aged, Viral Load, United Kingdom, Kinetics, Infectious Diseases, Transmission (mechanics), England, Female, business, Life Sciences & Biomedicine, Viral load, Cohort study

Abstract

Background The SARS-CoV-2 delta (B.1.617.2) variant is highly transmissible and spreading globally, including in populations with high vaccination rates. We aimed to investigate transmission and viral load kinetics in vaccinated and unvaccinated individuals with mild delta variant infection in the community. Methods Between Sept 13, 2020, and Sept 15, 2021, 602 community contacts (identified via the UK contract-tracing system) of 471 UK COVID-19 index cases were recruited to the Assessment of Transmission and Contagiousness of COVID-19 in Contacts cohort study and contributed 8145 upper respiratory tract samples from daily sampling for up to 20 days. Household and non-household exposed contacts aged 5 years or older were eligible for recruitment if they could provide informed consent and agree to self-swabbing of the upper respiratory tract. We analysed transmission risk by vaccination status for 231 contacts exposed to 162 epidemiologically linked delta variant-infected index cases. We compared viral load trajectories from fully vaccinated individuals with delta infection (n=29) with unvaccinated individuals with delta (n=16), alpha (B.1.1.7; n=39), and pre-alpha (n=49) infections. Primary outcomes for the epidemiological analysis were to assess the secondary attack rate (SAR) in household contacts stratified by contact vaccination status and the index cases’ vaccination status. Primary outcomes for the viral load kinetics analysis were to detect differences in the peak viral load, viral growth rate, and viral decline rate between participants according to SARS-CoV-2 variant and vaccination status. Findings The SAR in household contacts exposed to the delta variant was 25% (95% CI 18–33) for fully vaccinated individuals compared with 38% (24–53) in unvaccinated individuals. The median time between second vaccine dose and study recruitment in fully vaccinated contacts was longer for infected individuals (median 101 days [IQR 74–120]) than for uninfected individuals (64 days [32–97], p=0·001). SAR among household contacts exposed to fully vaccinated index cases was similar to household contacts exposed to unvaccinated index cases (25% [95% CI 15–35] for vaccinated vs 23% [15–31] for unvaccinated). 12 (39%) of 31 infections in fully vaccinated household contacts arose from fully vaccinated epidemiologically linked index cases, further confirmed by genomic and virological analysis in three index case–contact pairs. Although peak viral load did not differ by vaccination status or variant type, it increased modestly with age (difference of 0·39 [95% credible interval –0·03 to 0·79] in peak log10 viral load per mL between those aged 10 years and 50 years). Fully vaccinated individuals with delta variant infection had a faster (posterior probability >0·84) mean rate of viral load decline (0·95 log10 copies per mL per day) than did unvaccinated individuals with pre-alpha (0·69), alpha (0·82), or delta (0·79) variant infections. Within individuals, faster viral load growth was correlated with higher peak viral load (correlation 0·42 [95% credible interval 0·13 to 0·65]) and slower decline (–0·44 [–0·67 to –0·18]). Interpretation Vaccination reduces the risk of delta variant infection and accelerates viral clearance. Nonetheless, fully vaccinated individuals with breakthrough infections have peak viral load similar to unvaccinated cases and can efficiently transmit infection in household settings, including to fully vaccinated contacts. Host–virus interactions early in infection may shape the entire viral trajectory. Funding National Institute for Health Research.

Published

2021