Your search keyword '"Robert C. Read"' showing total 18 results

1. Prior exposure to B. pertussis shapes the mucosal antibody response to acellular pertussis booster vaccination

Author

Evi van Schuppen, Janeri Fröberg, Prashanna Balaji Venkatasubramanian, Pauline Versteegen, Hans de Graaf, Jana Holubová, Joshua Gillard, Pieter G. M. van Gageldonk, Irma Joosten, Ronald de Groot, Peter Šebo, Guy A. M. Berbers, Robert C. Read, Martijn A. Huynen, Marien I. de Jonge, and Dimitri A. Diavatopoulos

Subjects

Science

Abstract

Bordetella pertussis (Bp), the causative agent of pertussis, continues to circulate and it’s not well understood how (sub)clinical infections shape immune memory to Bp and vaccination. Here, using a mutant Bp strain lacking antigens of the acellular pertussis vaccine, the authors show how prior exposure to Bp shapes the mucosal antibody response to booster vaccination.

Published

2022

2. Distinct early cellular kinetics in participants protected against colonization upon Bordetella pertussis challenge

Author

Annieck M. Diks, Hans de Graaf, Cristina Teodosio, Rick J. Groenland, Bas de Mooij, Muktar Ibrahim, Alison R. Hill, Robert C. Read, Jacques J.M. van Dongen, Magdalena A. Berkowska, and on behalf of the IMI-2 PERISCOPE Consortium

Subjects

Immunology, Infectious disease, Medicine

Abstract

BACKGROUND To date, only limited data are available on the mechanisms of protection against colonization with Bordetella pertussis in humans.METHODS In this study, the cellular responses to B. pertussis challenge were monitored longitudinally using high-dimensional EuroFlow-based flow cytometry, allowing quantitative detection of more than 250 different immune cell subsets in the blood of 15 healthy donors.RESULTS Participants who were protected against colonization showed different early cellular responses compared with colonized participants. Especially prominent for colonization-protected participants were the early expansion of CD36– nonclassical monocytes on day 1 (D1), natural killer cells (D3), follicular T helper cells (D1–D3), and plasma cells (D3). Plasma cell expansion on D3 correlated negatively with the CFU load on D7 and D9 after challenge. Increased plasma cell maturation on D11–D14 was found in participants with seroconversion.CONCLUSION These early cellular immune responses following experimental infection can now be further characterized and potentially linked to an efficient mucosal immune response, preventing colonization. Ultimately, their presence may be used to evaluate whether new B. pertussis vaccine candidates are protective against B. pertussis colonization, e.g., by bacterial challenge after vaccination.TRIAL REGISTRATION ClinicalTrials.gov NCT03751514.FUNDING Innovative Medicines Initiative 2 Joint Undertaking and the EuroFlow Consortium.

Published

2023

3. The role of public involvement in the design of the first SARS-CoV-2 human challenge study during an evolving pandemic

Author

Maria Piggin, Emma Smith, Peter Mankone, Leah Ndegwa, Diane Gbesemete, Philippa Pristerà, Michael Bahrami-Hessari, Halle Johnson, Andrew P. Catchpole, Peter J.M. Openshaw, Christopher Chiu, Robert C. Read, Helen Ward, and Caroline Barker

Subjects

Ethics, Human challenge study, Public involvement, SARS-CoV-2, Infectious and parasitic diseases, RC109-216

Abstract

High quality health care research must involve patients and the public. This ensures research is important, relevant and acceptable to those it is designed to benefit. The world’s first human challenge study with SARS-CoV-2 undertook detailed public involvement to inform study design despite the urgency to review and establish the study. The work was integral to the UK Research Ethics Committee review and approval of the study. Discussion with individuals from ethnic minorities within the UK population supported decision-making around the study exclusion criteria. Public review of study materials for consent processes led to the addition of new information, comparisons and visual aids to help volunteers consider the practicalities and risks involved in participating. A discussion exploring the acceptability of a human challenge study with SARS-CoV-2 taking place in the UK, given the current context of the pandemic, identified overall support for the study. Public concern for the wellbeing of trial participants, as a consequence of isolation, was identified. We outline our approach to public involvement and its impact on study design.

Published

2022

4. Public attitudes to a human challenge study with SARS-CoV-2: a mixed-methods study [version 1; peer review: 2 approved]

Author

Michael Bahrami-Hessari, Emma Smith, Katherine Baker, Halle Johnson, Carmel McGrath, Ambar Qavi, Robert C. Read, Christopher Chiu, Caroline Barker, Helen Ward, Diane Gbesemete, Katharine Collet, Daniella Watson, Maria Piggin, Wendy Lawerence, and Philippa Pristerà

Subjects

Ethics, human challenge study, consultation, public, acceptability, COVID-19, eng, Medicine, Science

Abstract

Background: Human challenge studies involve the deliberate exposure of healthy volunteers to an infectious micro-organism in a highly controlled and monitored way. They are used to understand infectious diseases and have contributed to the development of vaccines. In early 2020, the UK started exploring the feasibility of establishing a human challenge study with SARS-CoV-2. Given the significant public interest and the complexity of the potential risks and benefits, it is vital that public views are considered in the design and approval of any such study and that investigators and ethics boards remain accountable to the public. Methods: Mixed methods study comprising online surveys conducted with 2,441 UK adults and in-depth virtual focus groups with 57 UK adults during October 2020 to explore the public’s attitudes to a human challenge study with SARS-CoV-2 taking place in the UK. Results: There was overall agreement across the surveys and focus groups that a human challenge study with SARS-CoV-2 should take place in the UK. Transparency of information, trust and the necessity to provide clear information on potential risks to study human challenge study participants were important. The perceived risks of taking part included the risk of developing long-term effects from COVID, impact on personal commitments and mental health implications of isolation. There were a number of practical realities to taking part that would influence a volunteer’s ability to participate (e.g. Wi-Fi, access to exercise, outside space and work, family and pet commitments). Conclusions: The results identified practical considerations for teams designing human challenge studies. Recommendations were grouped: 1) messaging to potential study participants, 2) review of the protocol and organisation of the study, and 3) more broadly, making the study more inclusive and relevant. This study highlights the value of public consultation in research, particularly in fields attracting public interest and scrutiny.

Published

2022

5. Effect of colonisation with Neisseria lactamica on cross-reactive anti-meningococcal B-cell responses: a randomised, controlled, human infection trial

Author

Adam P Dale, Anastasia A Theodosiou, Diane F Gbesemete, Jonathan M Guy, Eleanor F Jones, Alison R Hill, Muktar M Ibrahim, Hans de Graaf, Muhammad Ahmed, Saul N Faust, Andrew R Gorringe, Marta E Polak, Jay R Laver, and Robert C Read

Subjects

Adult, Microbiology (medical), Infectious Diseases, Immunoglobulin G, Virology, Immunoglobulin A, Secretory, Leukocytes, Mononuclear, Humans, Saline Solution, Neisseria meningitidis, Microbiology, Neisseria lactamica, Phosphates

Abstract

Pharyngeal colonisation by the commensal bacterium Neisseria lactamica inhibits colonisation by Neisseria meningitidis and has an inverse epidemiological association with meningococcal disease. The mechanisms that underpin this relationship are unclear, but could involve the induction of cross-reactive immunity. In this study, we aimed to evaluate whether colonisation with N lactamica induces N lactamica-specific B-cell responses that are cross-reactive with N meningitidis.In this randomised, placebo-controlled, human infection trial at University Hospital Southampton Clinical Research Facility (Southampton, UK), healthy adults aged 18-45 years were randomly assigned (2:1) to receive intranasal inoculation with either 10Of 50 participants assessed for eligibility between Sept 5, 2018, and March 3, 2019, 31 were randomly assigned (n=20 N lactamica, n=11 PBS). Among the 17 participants who were colonised with N lactamica, the median baselines compared with peak post-colonisation N lactamica-specific plasma-cell frequencies (per 10Natural immunity to N meningitidis after colonisation with N lactamica might be due to cross-reactive adaptive responses. Exploitation of this microbial mechanism with a genetically modified live vector could protect against N meningitidis colonisation and disease.Wellcome Trust, Medical Research Council, and NIHR Southampton Biomedical Research Centre.

Published

2022

6. Persistence of immune response in heterologous COVID vaccination schedules in the Com-COV2 study - a single-blind, randomised trial incorporating mRNA, viral-vector and protein-adjuvant vaccines

Author

Robert H. Shaw, Melanie Greenland, Arabella S.V. Stuart, Parvinder K. Aley, Nick J. Andrews, J. Claire Cameron, Sue Charlton, Elizabeth A. Clutterbuck, Andrea M. Collins, Tom Darton, Tanya Dinesh, Christopher J.A. Duncan, Saul N. Faust, Daniela M. Ferreira, Adam Finn, Anna L. Goodman, Christopher A. Green, Bassam Hallis, Paul T. Heath, Helen Hill, Teresa Lambe, Vincenzo Libri, Patrick J. Lillie, Ella Morey, Yama F. Mujadidi, Ruth Payne, Emma L. Plested, Samuel Provstgaard-Morys, Maheshi N. Ramasamy, Mary Ramsay, Robert C. Read, Hannah Robinson, Gavin R. Screaton, Nisha Singh, David P.J. Turner, Paul J. Turner, Rachel White, Jonathan S. Nguyen-Van-Tam, Xinxue Liu, and Matthew D. Snape

Subjects

Microbiology (medical), Infectious Diseases

Abstract

Background: Heterologous COVID vaccine priming schedules are immunogenic and effective. This report aims to understand the persistence of immune response to the viral vectored, mRNA and protein-based COVID-19 vaccine platforms used in homologous and heterologous priming combinations, which will inform the choice of vaccine platform in future vaccine development. Methods: Com-COV2 was a single-blinded trial in which adults ≥ 50 years, previously immunised with single dose ‘ChAd’ (ChAdOx1 nCoV-19, AZD1222, Vaxzevria, Astrazeneca) or ‘BNT’ (BNT162b2, tozinameran, Comirnaty, Pfizer/BioNTech), were randomised 1:1:1 to receive a second dose 8–12 weeks later with either the homologous vaccine, or ‘Mod’ (mRNA-1273, Spikevax, Moderna) or ‘NVX’ (NVX-CoV2373, Nuvaxovid, Novavax). Immunological follow-up and the secondary objective of safety monitoring were performed over nine months. Analyses of antibody and cellular assays were performed on an intention-to-treat population without evidence of COVID-19 infection at baseline or for the trial duration. Findings: In April/May 2021, 1072 participants were enrolled at a median of 9.4 weeks after receipt of a single dose of ChAd (N = 540, 45% female) or BNT (N = 532, 39% female) as part of the national vaccination programme. In ChAd-primed participants, ChAd/Mod had the highest anti-spike IgG from day 28 through to 6 months, although the heterologous vs homologous geometric mean ratio (GMR) dropped from 9.7 (95% CI (confidence interval): 8.2, 11.5) at D28 to 6.2 (95% CI: 5.0, 7.7) at D196. The heterologous/homologous GMR for ChAd/NVX similarly dropped from 3.0 (95% CI:2.5,3.5) to 2.4 (95% CI:1.9, 3.0). In BNT-primed participants, decay was similar between heterologous and homologous schedules with BNT/Mod inducing the highest anti-spike IgG for the duration of follow-up. The adjusted GMR (aGMR) for BNT/Mod compared with BNT/BNT increased from 1.36 (95% CI: 1.17, 1.58) at D28 to 1.52 (95% CI: 1.21, 1.90) at D196, whilst for BNT/NVX this aGMR was 0.55 (95% CI: 0.47, 0.64) at day 28 and 0.62 (95% CI: 0.49, 0.78) at day 196. Heterologous ChAd-primed schedules produced and maintained the largest T-cell responses until D196. Immunisation with BNT/NVX generated a qualitatively different antibody response to BNT/BNT, with the total IgG significantly lower than BNT/BNT during all follow-up time points, but similar levels of neutralising antibodies. Interpretation: Heterologous ChAd-primed schedules remain more immunogenic over time in comparison to ChAd/ChAd. BNT-primed schedules with a second dose of either mRNA vaccine also remain more immunogenic over time in comparison to BNT/NVX. The emerging data on mixed schedules using the novel vaccine platforms deployed in the COVID-19 pandemic, suggest that heterologous priming schedules might be considered as a viable option sooner in future pandemics. ISRCTN:27841311 EudraCT:2021-001275-16.

Published

2023

7. Corrigendum to 'Persistence of immunogenicity after seven COVID-19 vaccines given as third dose boosters following two doses of ChAdOx1 nCov-19 or BNT162b2 in the UK: Three month analyses of the COV-BOOST trial' [J Infect 84(6) (2022) 795–813, 5511]

Author

Xinxue Liu, Alasdair PS Munro, Shuo Feng, Leila Janani, Parvinder K Aley, Gavin Babbage, David Baxter, Marcin Bula, Katrina Cathie, Krishna Chatterjee, Wanwisa Dejnirattisai, Kate Dodd, Yvanne Enever, Ehsaan Qureshi, Anna L. Goodman, Christopher A Green, Linda Harndahl, John Haughney, Alexander Hicks, Agatha A. van der Klaauw, Jonathan Kwok, Vincenzo Libri, Martin J Llewelyn, Alastair C McGregor, Angela M. Minassian, Patrick Moore, Mehmood Mughal, Yama F Mujadidi, Kyra Holliday, Orod Osanlou, Rostam Osanlou, Daniel R Owens, Mihaela Pacurar, Adrian Palfreeman, Daniel Pan, Tommy Rampling, Karen Regan, Stephen Saich, Teona Serafimova, Dinesh Saralaya, Gavin R Screaton, Sunil Sharma, Ray Sheridan, Ann Sturdy, Piyada Supasa, Emma C Thomson, Shirley Todd, Chris Twelves, Robert C. Read, Sue Charlton, Bassam Hallis, Mary Ramsay, Nick Andrews, Teresa Lambe, Jonathan S Nguyen-Van-Tam, Victoria Cornelius, Matthew D Snape, and Saul N Faust

Subjects

Microbiology (medical), Infectious Diseases

Published

2023

8. Neisseria lactamica controlled human infection model

Author

Jay R. Laver, Robert C. Read, Diane Gbesemete, Adam P. Dale, Bidmos, Fadil, Bossé, Janine, and Langford, Paul

Subjects

biology, Neisseria meningitidis, biology.organism_classification, medicine.disease_cause, law.invention, Microbiology, Prolonged exposure, Immune system, medicine.anatomical_structure, stomatognathic system, Antigen, law, Neisseria lactamica, otorhinolaryngologic diseases, medicine, Colonization, Polymerase chain reaction, Respiratory tract

Abstract

Neisseria lactamica is a nonpathogenic commensal of the human upper respiratory tract that has been associated with protection against N. meningitidis colonization and disease. We have previously utilized the N. lactamica controlled human infection model to investigate the protective effect of N. lactamica colonization on N. meningitidis colonization, the nature of cross-reactive immune responses mounted toward N. meningitidis following N. lactamica colonization, and the microevolution of N. lactamica over a 5-month colonization period. More recently, we have assessed the possibility of utilizing genetically modified strains of N. lactamica to enable use of the commensal as a vehicle for prolonged exposure of the nasopharynx of humans to antigens of interest, expressed in carried organisms. A controlled infection with N. lactamica expressing the meningococcal antigen NadA has been executed and the results demonstrate that this strategy is effective at generating immune responses to the target antigen. Throughout this chapter, we outline in a step-by-step manner the methodologies utilized when performing controlled human infection with N. lactamica including procedures relating to: (1) the dilution of N. lactamica stock vials to derive intranasal inocula, (2) the delivery of intranasal inocula to human volunteers, (3) the determination of N. lactamica colonization status following intranasal inoculation using oropharyngeal swabbing and nasal wash sampling, (4) the microbiological procedures utilized to identify N. lactamica colonization among study volunteers, and (5) the identification of N. lactamica colonies as strain Y92-1009 using polymerase chain reaction.

Published

2022

9. Effect of priming interval on reactogenicity, peak immunological response, and waning after homologous and heterologous COVID-19 vaccine schedules: exploratory analyses of Com-COV, a randomised control trial

Author

Robert H Shaw, Xinxue Liu, Arabella S V Stuart, Melanie Greenland, Parvinder K Aley, Nick J Andrews, J Claire Cameron, Sue Charlton, Elizabeth A Clutterbuck, Andrea M Collins, Wanwisa Dejnirattisai, Tanya Dinesh, Saul N Faust, Daniela M Ferreira, Adam Finn, Christopher A Green, Bassam Hallis, Paul T Heath, Helen Hill, Teresa Lambe, Rajeka Lazarus, Vincenzo Libri, Fei Long, Yama F Mujadidi, Emma L Plested, Ella R Morey, Samuel Provstgaard-Morys, Maheshi N Ramasamy, Mary Ramsay, Robert C Read, Hannah Robinson, Gavin R Screaton, Nisha Singh, David P J Turner, Paul J Turner, Iason Vichos, Laura L Walker, Rachel White, Jonathan S Nguyen-Van-Tam, Matthew D Snape, Alasdair P.S. Munro, Jazz Bartholomew, Laura Presland, Sarah Horswill, Sarah Warren, Sophie Varkonyi-Clifford, Stephen Saich, Kirsty Adams, Marivic Ricamara, Nicola Turner, Nicole Y. Yee Ting, Sarah Whittley, Tommy Rampling, Amisha Desai, Claire H. Brown, Ehsaan Qureshi, Karishma Gokani, Kush Naker, Johanna K. Kellett Wright, Rachel L. Williams, Tawassal Riaz, Florentina D. Penciu, Amy Carson, Claudio Di Maso, Gracie Mead, Elizabeth G. Howe, Mujtaba Ghulam Farooq, Rabiullah Noristani, Xin L. Yao, Neil J. Oldfield, Daniel Hammersley, Sue Belton, Simon Royal, Alberto San Francisco Ramos, Cecilia Hultin, Eva P. Galiza, Rebecca Crook, Marcin Bula, Fred Fyles, Hassan Burhan, Flora Maelin, Elen Hughes, Emmanuel Okenyi, Group, Com-COV Study, and National Institute for Health and Care Research

Subjects

Pulmonary and Respiratory Medicine, Adult, COVID-19 Vaccines, wa_115, SARS-CoV-2, COVID-19/prevention & control, Com-COV Study Group, Immunization, Secondary, COVID-19, Covid19, 1103 Clinical Sciences, Antibodies, Viral, qw_806, qw_805, 1117 Public Health and Health Services, ChAdOx1 nCoV-19, Immunoglobulin G, wc_506, Humans, BNT162 Vaccine, COVID-19 Vaccines/adverse effects, 1199 Other Medical and Health Sciences

Abstract

Background Priming COVID-19 vaccine schedules have been deployed at variable intervals globally, which might influence immune persistence and the relative importance of third-dose booster programmes. Here, we report exploratory analyses from the Com-COV trial, assessing the effect of 4-week versus 12-week priming intervals on reactogenicity and the persistence of immune response up to 6 months after homologous and heterologous priming schedules using the vaccines BNT162b2 (tozinameran, Pfizer/BioNTech) and ChAdOx1 nCoV-19 (AstraZeneca). Methods Com-COV was a participant-masked, randomised immunogenicity trial. For these exploratory analyses, we used the trial's general cohort, in which adults aged 50 years or older were randomly assigned to four homologous and four heterologous vaccine schedules using BNT162b2 and ChAdOx1 nCoV-19 with 4-week or 12-week priming intervals (eight groups in total). Immunogenicity analyses were done on the intention-to-treat (ITT) population, comprising participants with no evidence of SARS-CoV-2 infection at baseline or for the trial duration, to assess the effect of priming interval on humoral and cellular immune response 28 days and 6 months post-second dose, in addition to the effects on reactogenicity and safety. The Com-COV trial is registered with the ISRCTN registry, 69254139 (EudraCT 2020–005085–33). Findings Between Feb 11 and 26, 2021, 730 participants were randomly assigned in the general cohort, with 77–89 per group in the ITT analysis. At 28 days and 6 months post-second dose, the geometric mean concentration of anti-SARS-CoV-2 spike IgG was significantly higher in the 12-week interval groups than in the 4-week groups for homologous schedules. In heterologous schedule groups, we observed a significant difference between intervals only for the BNT162b2–ChAdOx1 nCoV-19 group at 28 days. Pseudotyped virus neutralisation titres were significantly higher in all 12-week interval groups versus 4-week groups, 28 days post-second dose, with geometric mean ratios of 1·4 (95% CI 1·1–1·8) for homologous BNT162b2, 1·5 (1·2–1·9) for ChAdOx1 nCoV-19–BNT162b2, 1·6 (1·3–2·1) for BNT162b2–ChAdOx1 nCoV-19, and 2·4 (1·7–3·2) for homologous ChAdOx1 nCoV-19. At 6 months post-second dose, anti-spike IgG geometric mean concentrations fell to 0·17–0·24 of the 28-day post-second dose value across all eight study groups, with only homologous BNT162b2 showing a slightly slower decay for the 12-week versus 4-week interval in the adjusted analysis. The rank order of schedules by humoral response was unaffected by interval, with homologous BNT162b2 remaining the most immunogenic by antibody response. T-cell responses were reduced in all 12-week priming intervals compared with their 4-week counterparts. 12-week schedules for homologous BNT162b2 and ChAdOx1 nCoV-19–BNT162b2 were up to 80% less reactogenic than 4-week schedules. Interpretation These data support flexibility in priming interval in all studied COVID-19 vaccine schedules. Longer priming intervals might result in lower reactogenicity in schedules with BNT162b2 as a second dose and higher humoral immunogenicity in homologous schedules, but overall lower T-cell responses across all schedules. Future vaccines using these novel platforms might benefit from schedules with long intervals. Funding UK Vaccine Taskforce and National Institute for Health and Care Research.

Published

2022

10. Controlled human infection with

Author

Anastasia A, Theodosiou, Jay R, Laver, Adam P, Dale, David W, Cleary, Christine E, Jones, and Robert C, Read

Subjects

Adult, Microbiota, Infant, Newborn, Infant, Mothers, Pilot Projects, Neisseria meningitidis, Pregnancy, Child, Preschool, RNA, Ribosomal, 16S, Humans, Pharynx, Female, Child, Neisseria lactamica

Abstract

Infant upper respiratory microbiota are derived partly from the maternal respiratory tract, and certain microbiota are associated with altered risk of infections and respiratory disease.20 healthy pregnant women will receive nasal inoculation withThis study has been approved by the London Central Research Ethics Committee (21/PR/0373). Findings will be published in peer-reviewed open-access journals as soon as possible.NCT04784845.

Published

2022

11. Antibiotics for lower respiratory tract infection in children presenting in primary care (ARTIC-PC): the predictive value of molecular testing

Author

Paul Little, Robert C. Read, Taeko Becque, Nick A. Francis, Alastair D. Hay, Beth Stuart, Gilly O'Reilly, Natalie Thompson, Kerenza Hood, Saul Faust, Kay Wang, Michael Moore, and Theo Verheij

Subjects

Microbiology (medical), Infectious Diseases, Bacteria, Molecular Diagnostic Techniques, Primary Health Care, Viruses, Amoxicillin, Humans, General Medicine, Child, Respiratory Tract Infections, Anti-Bacterial Agents

Abstract

Objectives\udThis study aimed to assess whether the presence of bacteria or viruses in the upper airway of children presenting with uncomplicated lower respiratory tract infection (LRTI) predicts the benefit of antibiotics.\udMethods\udChildren between 6 months and 12 years presenting to UK general practices with an acute LRTI were randomized to receive amoxicillin 50 mg/kg/d for 7 days or placebo. Children not randomized (ineligible or clinician/parental choice) could participate in a parallel observational study. The primary outcome was the duration of symptoms rated moderately bad or worse. Throat swabs were taken and analyzed for the presence of bacteria and viruses by multiplex PCR.\udResults\udSwab results were available for most participants in the trial (306 of 432; 71%) and in the observational (182 of 326; 59%) studies. Bacterial pathogens potentially sensitive to amoxicillin (Haemophilus influenzae, Moraxella catarrhalis, Streptococcus pneumoniae) were detected among 51% of the trial placebo group and 49% of the trial antibiotic group. The median difference in the duration of symptoms rated moderately bad or worse between antibiotic and placebo was similar when potentially antibiotic-susceptible bacteria were present (median: –1 day; 99% CI, –12.3 to 10.3) or not present (median: –1 day; 99% CI, –4.5 to 2.5). Furthermore, bacterial genome copy number did not predict benefit. There were similar findings for all secondary outcomes and when including the data from the observational study.\udDiscussion\udThere was no clear evidence that antibiotics improved clinical outcomes conditional on the presence or concentration of bacteria or viruses in the upper airway. Before deploying microbiologic point-of-care tests for children with uncomplicated LRTI in primary care, rigorous validating trials are needed.

Published

2022

12. Safety, tolerability and viral kinetics during SARS-CoV-2 human challenge

Author

Ben Killingley, Alex Mann, Mariya Kalinova, Alison Boyers, Niluka Goonawardane, Jie Zhou, Kate Lindsell, Samanjit S. Hare, Jonathan Brown, Rebecca Frise, Emma Smith, Claire Hopkins, Nicolas Noulin, Brandon Londt, Tom Wilkinson, Stephen Harden, Helen McShane, Mark Baillet, Anthony Gilbert, Michael Jacobs, Christine Charman, Priya Mande, Jonathan S. Nguyen-Van-Tam, Malcolm G. Semple, Robert C. Read, Neil M. Ferguson, Peter J. Openshaw, Garth Rapeport, Wendy S. Barclay, Andrew P. Catchpole, and Christopher Chiu

Abstract

To establish a novel SARS-CoV-2 human challenge model, 36 volunteers aged 18-29 years without evidence of previous infection or vaccination were inoculated with 10 TCID50 of a wild-type virus (SARS-CoV-2/human/GBR/484861/2020) intranasally. Two participants were excluded from per protocol analysis due to seroconversion between screening and inoculation. Eighteen (~53%) became infected, with viral load (VL) rising steeply and peaking at ~5 days post-inoculation. Virus was first detected in the throat but rose to significantly higher levels in the nose, peaking at ~8.87 log10 copies/ml (median, 95% CI [8.41,9.53). Viable virus was recoverable from the nose up to ~10 days post-inoculation, on average. There were no serious adverse events. Mild-to-moderate symptoms were reported by 16 (89%) infected individuals, beginning 2-4 days post-inoculation. Anosmia/dysosmia developed more gradually in 12 (67%) participants. No quantitative correlation was noted between VL and symptoms, with high VLs even in asymptomatic infection, followed by the development of serum spike-specific and neutralising antibodies. However, lateral flow results were strongly associated with viable virus and modelling showed that twice-weekly rapid tests could diagnose infection before 70-80% of viable virus had been generated. Thus, in this first SARS-CoV-2 human challenge study, no serious safety signals were detected and the detailed characteristics of early infection and their public health implications were shown. ClinicalTrials.gov identifier: NCT04865237.

Published

2022

13. Foreword

Author

Robert C. Read

Published

2022

14. Immunogenicity and Reactogenicity of BNT162b2 and mRNA1273 COVID-19 Vaccines Given as Fourth Dose Boosters in the COV-BOOST Randomised Trial Following Two Doses of ChAdOx1 nCov-19 or BNT162b2 and a Third Dose of BNT162b2

Author

Alasdair P.S Munro, Shuo Feng, Leila Janani, Victoria Cornelius, Parvinder K. Aley, Gavin Babbage, David Baxter, Marcin Bula, Katrina Cathie, Krishna Chatterjee, Kate Dodd, Yvanne Enever, Ehsaan Qureshi, Anna L. Goodman, Christopher A. Green, Linda Harndahl, John Haughney, Alexander Hicks, Agatha A. van der Klaauw, Nasir Kanji, Vincenzo Libri, Martin J. Llewelyn, Alastair C. McGregor, Angela M. Minassian, Patrick Moore, Mehmood Mughal, Yama Farooq Mujadidi, Kyra Holliday, Orod Osanlou, Rostam Osanlou, Daniel R. Owens, Mihaela Pacurar, Adrian Palfreeman, Daniel Pan, Tommy Rampling, Karen Regan, Stephen Saich, Tanveer Bawa, Dinesh Saralaya, Sunil Sharma, Ray Sheridan, Mina Maalah, Emma C. Thomson, Shirley Todd, Chris Twelves, Robert C. Read, Sue Charlton, Bassam Hallis, Mary E. Ramsay, Nick Andrews, Teresa Lambe, Jonathan S. Nguyen-Van-Tam, Matthew D. Snape, Xinxue Liu, Saul N. Faust, and COV-BOOST Study Group

Published

2022

15. Safety and immunogenicity of seven COVID-19 vaccines as a third dose (booster) following two doses of ChAdOx1 nCov-19 or BNT162b2 in the UK (COV-BOOST): a blinded, multicentre, randomised, controlled, phase 2 trial

Author

Phedra Marius, Lynne Grundy, Nabeela Nazir Ahmed, Margaret Irwin, Jeanette Thorpe, Hannah Robinson, Helen Thorp, Maria Moon, Sadaf Farooqi, Nick Andrews, Louise Haskell, Bea Choi, Helen Beckett, Sharon Davies-Dear, Victoria Cornelius, Tracey Dare, Sunder Chita, Stephen Singh, Chris Twelves, John Haughney, Patrick S. Moore, Maja dabagh, Xinxue Liu, S Bibi, Suzanne Wilkins, Mohammed Khan, Charlotte Trinham, Emily Brunt, Edwin Justice, Hanna Nguyen, Andrew Gowland, Andrew Riordan, Tanveer Bawa, Daniel Pan, Ceri Davies, Suahil Aslam, Chris A Rogers, Dileep Kumar, Yvanne Enever, Siobhan Roche, Karen Bisnauthsing, Hayley Tulloch, Andrew Ustianowski, Steve Hurdover, Ehsaan Qureshi, Akamino Egbo, Ingrid Seath, Jo Salkeld, Carla Ferreira Da Silva, Ray Sheridan, Samantha Keenan, Shama Hamal, Jo Piper, Kerry Godwin, Sara Bennett, Liliana Cifuentes, Nicholas Ronan, Nicki Lakeman, Lona Tudor Jones, Ian Bentley, Rachel White, Chloe McDonnell, Nina Parungao, Emma Plested, Kyra Holliday, Lisa Berry, Christine Minnis, Victoria Graham, Christopher J Edwards, Beth Giddins, Tara Watson, Suzie Colquhoun, Johanna Mouland, Marion K Campbell, Rostam Osanlou, Carlota Pereira Dias Alves, Simon Fowler, Becky Mansfield, Sally Batham, Orod Osanlou, Arpan Guha, Stephen Saich, Kush Naker, Marcin Bula, Igor Starinskij, Bassam Hallis, Sonia Baryschpolec, Shirley Todd, Agatha A. van der Klaauw, Claire Brown, Emma Snashall, Andrew Seaton, Helen Radford, John Hladkiwskyj, Rachael Drake-Brockman, Matilda lang, Linda Harndahl, Holly Burton, Tim Whitbred, Sue Charlton, Mushiya Mpelembue, Anna Stewart, Anil Shenoy, Zalina Rashid-Gardner, Joseph Newman, John Gavin, Mary Savage, Julie Evans, Aidan Lingwood, Lauren Allen, Parvinder K. Aley, Rebecca Lyon, Rachel Bousfield, Robert C. Read, Joanne Spencer, David Baxter, Anastasia de la Haye, James Calderwood, Emily Chiplin, Evgenia Kourampa, Helen Gutteridge, Jade Gouriet, Trishna Champaneri, Javier Magan, Luke Vamplew, Abigail Oliver, Sally Reeder, Sunil Sharma, Nicola Turner, Yukari Sakagami, Mikayala King, Steve Thomas, Chanice Knight, Samantha Broadhead, Erica Peters, Dennyl Vail, Marta Merida-Morillas, Emily Locke, Krishna Chatterjee, Debbie Suggitt, Sara Fraser, Mihaela Pacurar, Kerry Hughes, Jessica Hailstone, Eleni Ladikou, Leah Richmond, Wythehi Ambihapathy, Kari Nightingale, Chris Cooper, Victoria Wenn, Kimberley Driver, Rachel Hughes, Filipa Dos Santos, Michael Singh, Ben Gardside, Donna Wixted, Jessica Lewis-Taylor, Jason Domingo, Scott Elliott, Wiesia Woodyatt, Jonathan Kwok, Subarna Roy, Amisha Desai, Iryna Boubriak, Helen Haydock, Arabella Stuart, Amy Ross-Russell, Rossana Romani, Lauren Fox, Gillian McMillan, Angela M. Minassian, Ann Sturdy, R. A. James, Valerie Renals, Stephanie Leung, Lillian Goncalves cordeiro, Fran Westwell, Robert Shaw, Anna L. Goodman, Katrina Cathie, Ryan Stephen Elliott, Adrian Palfreeman, Phillip Brown, Kim En Lee, Farida khan, Suzanne Tasker, Anna Hardy, Elisa Nanino, Donald van Welsenes, Adam Farrier, Antonette Andrews, Jacqueline Brandon, Alicja Kownacka, Jennifer Murira, Kate Dodd, Emily Horsfall, Chantelle Moorbey, Alison Hogan, Lynda Wagstaff, Gita Patel, Rebecca Cutts, Matthew D. Snape, Karen Regan, Beverley Longhurst, Saul N. Faust, Vincenzo Libri, Andrea Mazzella, Michael Stackpoole, Carool Osuji, Jonathan Baker, Teona Serafimova, Tumena Corrah, Sophie E. Moore, Sarah Warren, Christopher Herbert, Laura Presland, Daniel R. Owens, Colin Hale, Beth Jackson, Fran Hall, Debbie Branney, Martha Nabunjo, Mehmood Mughal, Laura Longshaw, Holly Baker, Elizabeth A. Clutterbuck, Eloise Summerton, Rowena Weighell, Fiona Makia, Alexander Hicks, Leila Janani, Matthew Stokes, Amanda Buadi, E. Thomson, Jennifer Gibney, Jane Hall, Tricia Coughlan, Bridget Tandy, Kelly Littlewood, Christopher A Green, Mary Ramsay, Lorinda Pickup, Karren Buttigieg, Gavin Babbage, Todd Rawlins, Simon Tunstall, Dominique Barker, Martin J. Llewelyn, James Cullinane, Judith Bell, Elizabeth Gordon, Andrew L. Freedman, Martin Wiselka, Mohammed Kamal, Sarah Whittley, Natalie Baker, Jorden Frankham, Malathi Munusamy, Karen Underwood, Dinesh Saralaya, Olivia Chalwin, Tommy Rampling, Rachael Phillips, Sarah Garrahy, Yee Ting Nicole Yim, Charlotte Sabine, Haniah Habash-Bailey, Ashley Whittington, Benjamin Welham, Patrick Kinch, Avril Bonnaud, Jonathan Macdonald, NinaSimone Hopkins, Kim Storton, Stephen Hughes, Enya Cooney, Alasdair Munro, Christine Cole, John Paul Seenan, Kim Appleby, Laurence John, David J. Smith, Lara Barcella, Imam Shaik, Kate Ellis, Olumide Adebambo, Jane Stockport, Gertraud Morshead, Paminder Lall, Stephen E. Cox, Daniel Hansen, Jonathan Perkins, Yama F Mujadidi, Thomas Honey, Alan Magee, Jonathan S. Nguyen-Van-Tam, Mwila Kasanyinga, Marivic Ricamara, Jaimie Wilson-Goldsmith, Alastair McGregor, Djamila Shamtally, Helena Baker, Tom Eadsforth, Dee Mullan, Karishma Gokani, Kirsty Adams, and Dominic Galvin

Subjects

Adult, Male, medicine.medical_specialty, Coronavirus disease 2019 (COVID-19), Population, Immunization, Secondary, Department of Error, Group A, Group B, COV-BOOST study group, Medicine, General & Internal, Immunogenicity, Vaccine, General & Internal Medicine, ChAdOx1 nCoV-19, Internal medicine, Safety, immunogenicity, COVID-19, vaccines, booster, Humans, Medicine, Adverse effect, education, Pandemics, BNT162 Vaccine, 11 Medical and Health Sciences, Aged, Aged, 80 and over, education.field_of_study, Science & Technology, Booster (rocketry), Reactogenicity, SARS-CoV-2, business.industry, Immunogenicity, COVID-19, General Medicine, Articles, Middle Aged, United Kingdom, Female, Patient Safety, business, Life Sciences & Biomedicine

Abstract

Background: \ud Few data exist on the comparative safety and immunogenicity of different COVID-19 vaccines given as a third (booster) dose. To generate data to optimise selection of booster vaccines, we investigated the reactogenicity and immunogenicity of seven different COVID-19 vaccines as a third dose after two doses of ChAdOx1 nCov-19 (Oxford–AstraZeneca; hereafter referred to as ChAd) or BNT162b2 (Pfizer–BioNtech, hearafter referred to as BNT).\ud \ud Methods: \ud COV-BOOST is a multicentre, randomised, controlled, phase 2 trial of third dose booster vaccination against COVID-19. Participants were aged older than 30 years, and were at least 70 days post two doses of ChAd or at least 84 days post two doses of BNT primary COVID-19 immunisation course, with no history of laboratory-confirmed SARS-CoV-2 infection. 18 sites were split into three groups (A, B, and C). Within each site group (A, B, or C), participants were randomly assigned to an experimental vaccine or control. Group A received NVX-CoV2373 (Novavax; hereafter referred to as NVX), a half dose of NVX, ChAd, or quadrivalent meningococcal conjugate vaccine (MenACWY) control (1:1:1:1). Group B received BNT, VLA2001 (Valneva; hereafter referred to as VLA), a half dose of VLA, Ad26.COV2.S (Janssen; hereafter referred to as Ad26) or MenACWY (1:1:1:1:1). Group C received mRNA1273 (Moderna; hereafter referred to as m1273), CVnCov (CureVac; hereafter referred to as CVn), a half dose of BNT, or MenACWY (1:1:1:1). Participants and all investigatory staff were blinded to treatment allocation. Coprimary outcomes were safety and reactogenicity and immunogenicity of anti-spike IgG measured by ELISA. The primary analysis for immunogenicity was on a modified intention-to-treat basis; safety and reactogenicity were assessed in the intention-to-treat population. Secondary outcomes included assessment of viral neutralisation and cellular responses. This trial is registered with ISRCTN, number 73765130.\ud \ud Findings: \ud Between June 1 and June 30, 2021, 3498 people were screened. 2878 participants met eligibility criteria and received COVID-19 vaccine or control. The median ages of ChAd/ChAd-primed participants were 53 years (IQR 44–61) in the younger age group and 76 years (73–78) in the older age group. In the BNT/BNT-primed participants, the median ages were 51 years (41–59) in the younger age group and 78 years (75–82) in the older age group. In the ChAd/ChAD-primed group, 676 (46·7%) participants were female and 1380 (95·4%) were White, and in the BNT/BNT-primed group 770 (53·6%) participants were female and 1321 (91·9%) were White. Three vaccines showed overall increased reactogenicity: m1273 after ChAd/ChAd or BNT/BNT; and ChAd and Ad26 after BNT/BNT. For ChAd/ChAd-primed individuals, spike IgG geometric mean ratios (GMRs) between study vaccines and controls ranged from 1·8 (99% CI 1·5–2·3) in the half VLA group to 32·3 (24·8–42·0) in the m1273 group. GMRs for wild-type cellular responses compared with controls ranged from 1·1 (95% CI 0·7–1·6) for ChAd to 3·6 (2·4–5·5) for m1273. For BNT/BNT-primed individuals, spike IgG GMRs ranged from 1·3 (99% CI 1·0–1·5) in the half VLA group to 11·5 (9·4–14·1) in the m1273 group. GMRs for wild-type cellular responses compared with controls ranged from 1·0 (95% CI 0·7–1·6) for half VLA to 4·7 (3·1–7·1) for m1273. The results were similar between those aged 30–69 years and those aged 70 years and older. Fatigue and pain were the most common solicited local and systemic adverse events, experienced more in people aged 30–69 years than those aged 70 years or older. Serious adverse events were uncommon, similar in active vaccine and control groups. In total, there were 24 serious adverse events: five in the control group (two in control group A, three in control group B, and zero in control group C), two in Ad26, five in VLA, one in VLA-half, one in BNT, two in BNT-half, two in ChAd, one in CVn, two in NVX, two in NVX-half, and one in m1273.\ud \ud Interpretation: \ud All study vaccines boosted antibody and neutralising responses after ChAd/ChAd initial course and all except one after BNT/BNT, with no safety concerns. Substantial differences in humoral and cellular responses, and vaccine availability will influence policy choices for booster vaccination.\ud \ud Funding: \ud UK Vaccine Taskforce and National Institute for Health Research.

Published

2021

16. Public attitudes to a human challenge study with SARS-CoV-2: a mixed-methods study

Author

Caroline Barker, Katharine Collet, Diane Gbesemete, Maria Piggin, Daniella Watson, Philippa Pristerà, Wendy Lawerence, Emma Smith, Michael Bahrami-Hessari, Halle Johnson, Katherine Baker, Ambar Qavi, Carmel McGrath, Christopher Chiu, Robert C. Read, and Helen Ward

Subjects

viruses, virus diseases, Medicine (miscellaneous), biochemical phenomena, metabolism, and nutrition, digestive system diseases, General Biochemistry, Genetics and Molecular Biology

Abstract

Background: Human challenge studies involve the deliberate exposure of healthy volunteers to an infectious micro-organism in a highly controlled and monitored way. They are used to understand infectious diseases and have contributed to the development of vaccines. In early 2020, the UK started exploring the feasibility of establishing a human challenge study with SARS-CoV-2. Given the significant public interest and the complexity of the potential risks and benefits, it is vital that public views are considered in the design and approval of any such study and that investigators and ethics boards remain accountable to the public. Methods: Mixed methods study comprising online surveys conducted with 2,441 UK adults and in-depth virtual focus groups with 57 UK adults during October 2020 to explore the public’s attitudes to a human challenge study with SARS-CoV-2 taking place in the UK. Results: There was overall agreement across the surveys and focus groups that a human challenge study with SARS-CoV-2 should take place in the UK. Transparency of information, trust and the necessity to provide clear information on potential risks to study human challenge study participants were important. The perceived risks of taking part included the risk of developing long-term effects from COVID, impact on personal commitments and mental health implications of isolation. There were a number of practical realities to taking part that would influence a volunteer’s ability to participate (e.g. Wi-Fi, access to exercise, outside space and work, family and pet commitments). Conclusions: The results identified practical considerations for teams designing human challenge studies. Recommendations were grouped: 1) messaging to potential study participants, 2) review of the protocol and organisation of the study, and 3) more broadly, making the study more inclusive and relevant. This study highlights the value of public consultation in research, particularly in fields attracting public interest and scrutiny.

Published

2022

17. Qualitative interview study exploring the perspectives of pregnant women on participating in controlled human infection research in the UK

Author

Christine E Jones, Robert C Read, Tushna Vandrevala, Anastasia A Theodosiou, and Robert B Dorey

Subjects

Medicine

Abstract

Introduction Pregnant women have been historically excluded from interventional research. While recent efforts have been made to improve their involvement, there remains a disparity in the evidence base for treatments available to pregnant women compared with the non-pregnant population. A significant barrier to the enrolment of pregnant women within research is risk perception and a poor understanding of decision-making in this population.Objective Assess the risk perception and influences on decision-making in pregnant women, when considering whether to enrol in a hypothetical interventional research study.Design Semistructured interviews were undertaken, and thematic analysis was undertaken of participant responses.Participants Twelve pregnant women were enrolled from an antenatal outpatient clinic.Results Participants were unanimously positive about enrolling in the proposed hypothetical interventional study. Risk perception was influenced by potential risks to their fetus and their previous experiences of healthcare and research. Participants found the uncertainty in quantifying risk for new research interventions challenging. They were motivated to enrol in research by altruism and found less invasive research interventions more tolerable.Conclusion It is vital to understand how pregnant women balance the perceived risks and benefits of interventional research. This may help clinicians and scientists better communicate risk to pregnant women and address the ongoing under-representation of pregnant women in interventional research.

Published

2023

18. Controlled human infection with Neisseria lactamica in late pregnancy to measure horizontal transmission and microbiome changes in mother–neonate pairs: a single-arm interventional pilot study protocol

Author

Christine E Jones, Robert C Read, Anastasia A Theodosiou, Jay R Laver, Adam P Dale, and David W Cleary

Subjects

Medicine

Abstract

Introduction Infant upper respiratory microbiota are derived partly from the maternal respiratory tract, and certain microbiota are associated with altered risk of infections and respiratory disease. Neisseria lactamica is a common pharyngeal commensal in young children and is associated with reduced carriage and invasive disease by Neisseria meningitidis. Nasal inoculation with N. lactamica safely and reproducibly reduces N. meningitidis colonisation in healthy adults. We propose nasal inoculation of pregnant women with N. lactamica, to establish if neonatal pharyngeal colonisation occurs after birth, and to characterise microbiome evolution in mother–infant pairs over 1 month post partum.Methods and analysis 20 healthy pregnant women will receive nasal inoculation with N. lactamica (wild type strain Y92-1009) at 36–38 weeks gestation. Upper respiratory samples, as well as optional breastmilk, umbilical cord blood and infant venous blood samples, will be collected from mother–infant pairs over 1 month post partum. We will assess safety, N. lactamica colonisation (by targeted PCR) and longitudinal microevolution (by whole genome sequencing), and microbiome evolution (by 16S rRNA gene sequencing).Ethics and dissemination This study has been approved by the London Central Research Ethics Committee (21/PR/0373). Findings will be published in peer-reviewed open-access journals as soon as possible.Trial registration number NCT04784845.

Published

2022