key: cord-0855950-wy97g50m
authors: Riley, Steven; Atchison, Christina; Ashby, Deborah; Donnelly, Christl A.; Barclay, Wendy; Cooke, Graham S.; Ward, Helen; Darzi, Ara; Elliott, Paul
title: REal-time Assessment of Community Transmission (REACT) of SARS-CoV-2 virus: Study protocol
date: 2021-04-21
journal: Wellcome Open Res
DOI: 10.12688/wellcomeopenres.16228.2
sha: 430f6d543b2fca109bc4ed27b312b639dd7a2e1b
doc_id: 855950
cord_uid: wy97g50m

Background: England, UK has one of the highest rates of confirmed COVID-19 mortality globally. Until recently, testing for the SARS-CoV-2 virus focused mainly on healthcare and care home settings. As such, there is far less understanding of community transmission. Protocol: The REal-time Assessment of Community Transmission (REACT) programme is a major programme of home testing for COVID-19 to track progress of the infection in the community. REACT-1 involves cross-sectional surveys of viral detection (virological swab for RT-PCR) tests in repeated samples of 100,000 to 150,000 randomly selected individuals across England. This examines how widely the virus has spread and how many people are currently infected. The age range is 5 years and above. Individuals are sampled from the England NHS patient list. REACT-2 is a series of five sub-studies towards establishing the seroprevalence of antibodies to SARS-CoV-2 in England as an indicator of historical infection. The main study (study 5) uses the same design and sampling approach as REACT-1 using a self-administered lateral flow immunoassay (LFIA) test for IgG antibodies in repeated samples of 100,000 to 200,000 adults aged 18 years and above. To inform study 5, studies 1-4 evaluate performance characteristics of SARS-CoV-2 LFIAs (study 1) and different aspects of feasibility, usability and application of LFIAs for home-based testing in different populations (studies 2-4). Ethics and dissemination: The study has ethical approval. Results are reported using STROBE guidelines and disseminated through reports to public health bodies, presentations at scientific meetings and open access publications. Conclusions: This study provides robust estimates of the prevalence of both virus (RT-PCR, REACT-1) and seroprevalence (antibody, REACT-2) in the general population in England. We also explore acceptability and usability of LFIAs for self-administered testing for SARS-CoV-2 antibody in a home-based setting, not done before at such scale in the general population.

COVID-19 is a pandemic disease caused by a novel coronavirus SARS-CoV-2. The first case in the UK was recorded at the end of January 2020 1 . In response to rising hospital admissions and mortality from the virus, the UK instituted a national lockdown on 23 March 2020 2 . Daily mortality peaked in the UK around the third week of April and then began to decline, as did the numbers of people testing positive for the virus. As of 17 August 2020, 41,369 deaths in people with a positive test had occurred in the UK 1 .

The change from increasing to decreasing incidence was almost certainly a result of social distancing and the national lockdown 3 . The net effect of the lockdown was to reduce the reproduction number R, the average number of new infections arising from a single infected individual, from well above 1 (estimated between 2 and 3 prior to its implementation 4 ) to below 1. As the UK transitions out of lockdown, the risk of infection in one area compared to another will be closely related to the number of infectious people in that area. As contact levels rise, an increase in R would be expected which could lead to a resurgence of infection if R again becomes greater than 1. R will vary over time and by geography. Current estimations of R are generally based on the number of cases, hospitalisation and mortality. However, sampling of transmission in the community allows a direct estimation of R.

Currently testing in the community is primarily targeted at symptomatic cases, and the uptake of this is likely to vary by geographic area, test accessibility and sociodemographic factors. Furthermore, opportunistic testing of symptomatic cases will miss asymptomatic cases who may contribute substantially to community transmission 5 .

In addition to the need for testing of SARS-CoV-2 virus in the community, widespread testing for antibodies offers valuable monitoring of the epidemic at a population level and may provide useful insights into natural history and the sustainability of immune responses. It has also been suggested that antibody testing for individual use may assess past exposure and possibly immunity, although this is controversial until more is known about immune response 6 . There are uncertainties around each of these uses, not least feasibility of obtaining large-scale population-wide data from representative samples, since traditional seroprevalence studies require a venous blood draw and transport of the sample to centralised laboratories, as well as assay costs.

Lateral flow immunoassays (LFIAs) offer the potential for a relatively convenient and inexpensive approach to SARS-CoV-2 antibody testing at-scale, which are easily distributed and could be self-administered at-home 7 . There are concerns about their validity 8 , particularly for individual use, but for population prevalence surveys it is possible to adjust for imperfect performance and obtain a reliable estimate of cumulative exposure 9 . It is essential that, prior to use in the community, the validity of the tests is assessed, including among those who have had COVID-19 with mild or no symptoms and using finger-prick blood rather than serum. It is also important to assess their acceptability and usability as home tests. Finger-prick self-sampling has been shown to be acceptable and feasible in diabetes monitoring 10 and HIV testing 11,12 . However, the first LFIAs developed for SARS-CoV-2 antibody testing were designed as point-of-care (POC) tests undertaken by healthcare professionals. A programme to assess and maximise their acceptability and usability is required.

The REal-time Assessment of Community Transmission (REACT) programme is designed to provide robust estimates of the prevalence of both virus (RT-PCR, REACT-1) and seroprevalence (antibody, REACT-2) in the general population in England, UK.

REACT-1 aims to provide rapid assessments of prevalence of infection in the community in England, unbiased by service factors and symptom reporting in order to assess the effects of changes to non-pharmaceutical interventions, such as easing of lockdown, on rates of infection in different areas and population groups. Repeated sampling over time allows estimates of prevalence to be obtained for different time periods which will inform estimates of R. Suitably sized samples allows national and sub-national estimates of R to detect areas with high prevalence or increasing R-values to guide the public health response.

REACT-2 aims to estimate cumulative community seroprevalence of IgG antibodies for SARS-CoV-2 in England. Antibodies provide a longer duration biomarker of exposure, relative to detection of current infection, which can help characterise the recent epidemic in more detail, including spatial and sociodemographic variation in transmission dynamics and past infection. Repeated sampling over time allows estimates of seroprevalence to be obtained for different time periods as well as changes over time, including information on antibody waning at the population-level. Large-scale antibody testing based on venous blood samples is expensive in time, personnel and laboratory resources, and cheaper more practicable approaches are required. Self-administered LFIA offers just such an approach, but this requires development work to include evaluation of performance of different LFIAs, and acceptability and usability studies of at-home self-testing among the general public and the key worker population who may be at increased risk of infection.

Minor changes to include more detailed information on sampling strategy for REACT-1 and REACT-2 Study 5, recruitment of volunteers to REACT-2 Study 2 and reporting of results back to participants in REACT-2 Study 4. Text added, including additional information on inclusion criteria for REACT-2, timelines and how adverse events will be identified and dealt with across the REACT programme. Links added to study material which is available on the Study Webpages.

Any further responses from the reviewers can be found at the end of the article

The design, sampling, sample size, outcome measures, data collection and analysis plan are described separately for REACT-1 and REACT-2, with the latter including details of five sub-studies included in the REACT-2 programme.

REACT-1: a study of SARS-CoV-2 virus prevalence in the community in England Study design Repeated cross-sectional surveys involving collection of virological swabs and reverse transcriptase polymerase chain reaction (RT-PCR) tests from a series of age-sex stratified representative population samples of 100,000 to 150,000 individuals in England. The age range is 5 years and above.

Individuals are sampled from the NHS patient list, which includes the name, address, age and sex of everyone registered with a general practitioner in England. In order to achieve the required sample size of 100,000 or 150,000, names and demographic details of up to 750,000 individuals aged 5 years and above are randomly selected and sent personalised invitations. For children (5 to 17 years old) the invitation is sent via parents/guardians. Potential participants are invited to indicate their willingness to take part and provide informed consent either via an online portal or by telephone. Potential participants are provided with detailed information about the study including what will happen to their test and results, and how their data are managed in line with General Data Protection Regulation (GDPR) and their rights to withdraw at any point. The sample is disproportionately stratified by lower-tier local authority (LTLA) to achieve similar numbers of participants in each area.

The study includes care home residents but not individuals in detention settings.

The study samples with replacement.

The study is powered conservatively to give information on every LTLA in England (n=315), under the assumption that prevalence in each Local Authority is independent. There are high levels of uncertainty in populations with low prevalence. Therefore, we powered the study to provide sufficient samples in each area to inform the local administrative and public health response. With a total of 150,000 completed tests we exclude prevalence of greater than 1.2% in each area with a confidence of 95%, assuming a diagnostic sensitivity of 65% (i.e. reduced from ca. 70% in clinical settings to account for self-administration) and a diagnostic specificity of 100% (Table 1) . With 100,000 tests we exclude prevalence above 1.7% per area for the same parameters.

The primary outcome is to estimate the SARS-CoV-2 infection prevalence in the community in England. Test result (positive/negative) is used as the main outcome variable.

• Quantifying geographical variation in swab-positivity rates across local authorities

• Investigating the association between swab-positivity and sociodemographic characteristics including age, gender, ethnicity and socio-economic status (SES).

• Prevalence and nature of symptoms comparing infected and uninfected individuals

Test kits and instructions are delivered by post to the participant's household. Study participation involves a self-administered throat and nasal swab, and completion of a short online or telephone questionnaire including information on demographic variables, household composition, behaviour and recent symptoms. A parent or guardian takes the swab for children aged 12 years or below and also aid in questionnaire completion for children as needed. A courier arrives the same day to collect the swab, which is then sent to one of the national COVID-19 testing centres or to a commercial laboratory. Samples for the commercial laboratory use dry swabs transported on a cold chain to preserve sample integrity. Results of the RT-PCR test are sent to the participant within 24 hours of the laboratory result being received, using email, SMS and letter. Details of those with a positive test are passed to NHS Test and Trace in line with statutory requirements. If the participant is either symptomatic or has a positive RT-PCR test or both, they are instructed to self-isolate along with other members of the household according to Government advice.

We calculate the prevalence of SARS-CoV-2 in each Local Authority area using two-sided binomial confidence intervals. We provide functionality in the statistical package R to produce estimates (and confidence intervals) of prevalence based on spatial aggregation of Local Authority areas, including unitary authority and regional estimates. We also provide estimates by age, sex, ethnicity and SES. Based on spatial patterns of hospital occupancy data, we expect prevalence of infection for nearby Local Authority areas to be correlated. We use a model-based geostatistical framework to investigate spatial correlation in underlying prevalence. Repeated surveys allow estimation of the changes in prevalence of infection and R-value since the easing lockdown, under assumptions of local epidemic growth rates. To investigate association of different covariates with swabpositivity, we perform univariate logistic regression to obtain unadjusted odds ratios and 95% confidence intervals.

We also use multivariable models to adjust for age and sex and then additionally ethnicity, region, key worker status and household size.

REACT-2 comprises five sub-studies to investigate feasibility, usability and application of LFIAs to measure prevalence of SARS-CoV-2 antibodies in the community. We first describe study 5, which is the measurement of IgG antibodies in random samples of the adult population in England. We then describe studies 1-4 which test different aspects of validity, feasibility, usability and application of LFIAs in different populations.

Repeated cross-sectional surveys of seroprevalence using selfadministered LFIAs from a series of age-stratified representative population samples of 100,000 to 200,000 individuals in England. The age range is 18 years and above.

Sampling is by the same method as in REACT-1.

Adult ≥ 18 years old.

The Medicines and Healthcare products Regulatory Agency (MHRA) did not give approval to use the lateral flow device in children in the unsupervised (at-home) setting in REACT-2. The Study Investigators and the manufacturer of the lateral flow device used in REACT-2 had to seek derogation approval for unsupervised use in adults for research purposes as it is not currently licensed for self-use.

Individuals with a medical condition (or are taking medication) that might increase bleeding risk from self-delivered finger prick with a lancet.

We aim for precision in our estimates of seroprevalence at LTLA level. Estimates are adjusted for test sensitivity and specificity of LFIAs as evaluated against clinical and laboratory references (study 1). Based on a conservative clinical sensitivity of 72% and overall population seroprevalence of 7% 13 we estimate the following sample sizes shown in Table 2 .

The primary outcome of the study is to estimate SARS-CoV-2 IgG antibody seroprevalence in the community in England. We estimate seroprevalence as the proportion of individuals who have a positive IgG result. Test result (IgG positive/IgG negative) is used as the main outcome variable.

Secondary outcomes are as in REACT-1 with respect to antibody prevalence. In addition, the durability of immune responses is evaluated in those with proven infection.

Test kits and instructions are delivered by post to people who register for the study. Performing the test requires the participant to obtain a drop of blood using a lancet provided, apply this to the test cassette, add buffer provided, and read the test.

The LFIA used is chosen based on favourable performance characteristics (sensitivity and specificity) as assessed in the REACT-2 laboratory-based evaluation sub-study of LFIAs (study 1). The chosen test may change between rounds of the study dependent on improved sensitivity and specificity as more tests are trialled in the laboratory. The instructions and all public facing study material are developed with extensive public involvement and user testing (studies 2 and 3).

Participants are asked to carry out the test and follow the instructions to read the result and take a photograph of the completed test. They then complete a short online or telephone questionnaire including information on demographic variables, household composition, behaviour, recent symptoms, experience of the test and the test result. They are asked to upload the photo of the test if possible. As LFIAs are currently not approved for home testing, participants are instructed to ignore the result and continue to follow current Government advice.

Participants reporting positive antibody tests and a similar sample of those who test antibody negative and who report an invalid test result are followed up 2-4 weeks after completing the antibody test to assess COVID-19 preventive behaviour and whether these behaviours changed as a result of having read their antibody test result. 

Weighted estimates (and confidence intervals) of seroprevalence at LTLA, regional and national levels, together with estimates by age, sex, ethnicity and deprivation are produced. Estimates of prevalence are adjusted for known test performance using the following: p = (q + specificity -1) / (sensitivity + specificity -1)

where p = adjusted proportion positive, q = observed proportion positive 9 .

Spatial analysis and logistic regression modelling are as described for REACT-1, with respect to antibody prevalence.

A sample of participant-reported test results are checked against the photograph provided for consistency.

We perform risk factor analyses for REACT-1 and REACT-2 independently. Our list of current publications can be found on the REACT webpages: https://www.imperial.ac.uk/medicine/ research-and-impact/groups/react-study/ Other analyses are planned and prioritised to deliver the most useful insights and impact on the ongoing pandemic response.

Study timelines to date (further rounds will depend on securing additional funding from the Department of Health and Social Care):

• REACT-1: surveys conducted monthly from May 2020 to Feb 2021 (no survey in Dec 2020)

• REACT-2 Study 5: surveys conducted Jul 2020, Aug 2020, Sep 2020, Nov 2020 and Feb 2021.

Summary of sample extraction and fieldwork dates, and response rates, by round can be found on the REACT webpages: https://www.imperial.ac.uk/media/imperial-college/institute-of-

Prior to the start of the COVID-19 vaccine roll out in England in December 2020, additional questions regarding vaccination status were added to the questionnaire for later rounds of REACT-1 and REACT-2. From REACT-1 Round 7 (Nov 2020) and REACT-2 Round 5 (Jan 2021) participants were being asked about COVID-19 vaccination. Study material, including the questionnaires for all study rounds can be found on the REACT webpages: https://www.imperial.ac.uk/medicine/researchand-impact/groups/react-study/

There is an agreed protocol in place for reporting adverse events to the MHRA. There is a specific question asking about adverse events in the questionnaires. Participants are also provided with a study email address and contact number to use to report any adverse events.

Study design Evaluation of test performance of different LFIAs.

Clinical and non-clinical NHS employees aged 18 years or above who have previously tested positive for SARS-CoV-2 by RT-PCR are invited to take part. Participants are booked into clinic for antibody testing once they are at least 21 days from the onset of symptoms, or positive RT-PCR test, whichever is earlier.

Inclusion criteria 1. Adult ≥ 18 years old.

2. Previous PCR-confirmed SARSCoV-2 (from nasopharyngeal or throat swab).

3. Date of COVID-19 symptom onset no sooner than 21 days prior to study visit*.

*≥21 days is chosen to optimise the number of seropositives.

Previous studies have shown that ELISA on sera is highly sensitive for IgG from 10 days following symptoms onset. Participants with date of positive PCR test <21 days will be asked to book an appointment (finger prick test and blood sample) for ≥21 days post PCR test.

Individuals with a medical condition (or are taking medication) that might increase bleeding risk from self-delivered finger prick with a lancet.

Five LFIAs are initially assessed, based on data from manufacturers and in the public domain in relation to sensitivity and specificity, and on availability for procurement with a view to using the best performing test in the REACT-2 national seroprevalence survey (study 5 above).

At the study appointment participants are asked to: A positive result in one of these serological assays is used to confirm the sample as containing SARS-CoV-2 antibody. These laboratory tests also give a readout of the quantity of antibody in each sample, allowing a determination of the cut off sensitivity of the LFIAs.

For specificity testing, 500 sera collected prior to August 2019 (negative controls) as part of the Airwave study of police personnel 14 are tested in each LFIA and by ELISA and virus neutralization.

Assuming 90% power, a COVID-19 prevalence of 100% (all participants confirmed SARS-CoV-2 positive by RT-PCR), and an expected test sensitivity of 85% we enrol a minimum of 153 participants to evaluate sensitivity with a two-sided delta of 10%.

The primary outcome is the sensitivity and specificity of each LFIA. For sensitivity, tests are compared against two standards (i) RT-PCR-confirmed clinical disease (via swab testing) and (ii) positivity in patients with either a positive S-ELISA and/or positive DABA score.

LFIA performance is assessed with i) finger-prick self-testing (participant interpretation); ii) finger-prick self-testing (trained observer interpretation); and iii) serum in the laboratory. Specificity is evaluated against the known negative samples, with all positives counting as false positives.

For comparison of individual LFIA performance, we compare cases where paired results from an individual are available from blood in the clinic and serum in the laboratory. We calculate sensitivities and 95% confidence intervals and test differences using the McNemar test for dependent groups. Agreement between the testing methods is assessed using the Kappa statistic 15 .

Following selection of the LFIA for the first round of study 5, further LFIAs will continue to be evaluated for future rounds as they are developed or made available to the REACT group.

We use a rapid iterative participatory approach involving members of the public at all stages of the REACT programme research process.

We recruit through existing involvement networks a small (n=20-30) but varied group of public partners to work with the research team to input into the design of the REACT-1 and REACT-2 studies. Via one or more online discussions, they advise on the development of study materials, including an instruction booklet and a short video to help people to use the LFIAs. From this network, a sub-group are sent study material via email to review and revise, including the participant information sheets, consent forms and user experience questionnaire. These advisory members are paid for their time reviewing and revising study material in accordance with NIHR INVOLVE rates 16 .

For the LFIA usability pilot, email invitations are sent to a broader network of public contacts and volunteers who are invited to try out and feedback on the LFIA self-testing kits. This network includes a list of COVID-19 public volunteers (n=200) who have volunteered to support research and response planning at Imperial 17 . These volunteers were recruited through VOICEglobal (https://www.voice-global.org/), an online platform for public involvement in research established by Newcastle University. Using this platform allowed us to recruit volunteers from outside of London. All public meetings were hosted online to facilitate contributions from people outside London. Furthermore, we invite participation from members of the Imperial BRC Public Advisory Panel, Imperial's young people's advisory group (YPAG) and members of local community organisations in North West London 18 . Those who volunteer (up to 300) are sent a link to an online registration and consent form and asked to provide details in order for a test kit to be couriered to them with instructions. They are asked to do the antibody test and then complete an online questionnaire about their experience, similar to the questionnaire used in clinic in study 1. A subsample (n=20) are asked to perform the test while being observed via videoconferencing and take part in a short interview after completing the test.

Adult ≥ 18 years old.

Individuals with a medical condition (or are taking medication) that might increase bleeding risk from self-delivered finger prick with a lancet.

Data obtained from the questionnaire on acceptability and usability are summarised by counts and descriptive statistics. Notes from the discussion groups, observations and interviews are shared within the research group and key themes and recommendations identified. The designer of the instructions/ video, and the researchers responsible for kits and study materials participate in these sessions, review the results and amend the materials. Several of the public partners further review the revised materials and provide further edits.

The design and language used in the instructional video and booklet, and the decision on the type and number of lancets supplied and the type and use of pipette included in the LFIA kits for a larger population-based usability study (study 3 below) are informed by this initial public involvement and user testing phase of REACT-2.

A cross-sectional study of a nationally representative sample (n=14,000) of the adult population (aged 18 years and over) in England. The study objective is to evaluate the usability of a variety of test features of LFIAs to assess whether they are suitable for home-based self-testing for SARS-CoV-2 antibodies. We evaluate two LFIAs with different usability characteristics also being validated in study 1.

Addresses from the Postal Address File are used to draw a random sample of 30,000 households in England to which study invitation letters are sent. Based on previous work, to attain a sample of 10,000 to 15,000 people, we assumed that 1 in 3 households would opt into the study. In the invitation letter we allow up to four adults aged 18 and over in the household to register to take part in the study.

Adult ≥ 18 years old.

Individuals with a medical condition (or are taking medication) that might increase bleeding risk from self-delivered finger prick with a lancet.

Data collection LFIA kits are posted to each registered individual with instructions (and a link to an online video) for them to perform the test at home. On completion of the test, participants are asked to record their interpretation of the result as part of an online survey, with the option of uploading a photograph of the test result window. Further questions include information on sociodemographic characteristics and questions around the acceptability and usability of the kits.

The main study outcome is usability of the LFIA kits. This is evaluated according to participants' ability to understand the instructions, use the kit to obtain a valid test result, and to correctly interpret the result in a home-based setting.

To determine how accurately participants interpret their test result, we look at the agreement between a participant's selfreported test result compared with a clinician's interpretation of the same result. The clinician, blinded to the participant's interpretation, examines the photograph submitted for all results reported positive or unable to read, and a random sample of 200 within each of the negative and invalid test outcome categories.

Acceptability is defined as consenting to and using the provided self-test in the participants' homes. There is also a further question asking participants whether they would be willing to repeat a self-administered finger-prick antibody test in the future. Other secondary outcomes include whether participants had assistance to do the test, reasons for not completing the test, participants' preferences for home-based self-testing versus clinic or community centre-based testing and whether parents would be willing to carry out the test on their children.

Data obtained from the questionnaire on acceptability and usability are summarised by counts and descriptive statistics. Agreement between participant-interpreted and clinician-interpreted result is assessed using the Kappa statistic 15 .

The decision to proceed with an LFIA, and which one, for the large-scale national seroprevalence study (study 5) will be based on a number of criteria including the usability and acceptability determined in this study, a relatively low proportion of invalid results, a high concordance with clinicianread results, together with test performance in the laboratory evaluation of clinical samples (study 1).

A cross-sectional study to assess accuracy, acceptability, usability and feasibility of self-and healthcare professional administered LFIA among key workers. In addition, this study assesses the use of dry blood spots as an alternative means of testing antibody response and use of a saliva sample compared with a throat and nose swab for RT-PCR testing.

Key workers are invited to participate: up to 5,500 individuals aged 18 years and above. These key workers are police officers and staff (Airwave Study participants 14 ), and members of the fire service.

Potential participants from the study population are sent an invitation letter and a participant information sheet by post or email. They are asked to contact the research team to make a clinic appointment at one of the six study sites (London, Manchester Warwick, Derby, Keele and Bournemouth) and followed up with one reminder letter or email.

Adult ≥ 18 years old.

Individuals with a medical condition (or are taking medication) that might increase bleeding risk from self-delivered finger prick with a lancet.

The participant is invited to conduct the LFIA test themselves in clinic without direct instruction from a staff member. The participant is asked to provide a finger-prick blood sample (1 drop) and follow the kit instructions provided, including photographing the result and uploading the photograph via a secure web portal. In addition, the participant is asked questions concerning usability and acceptability of the device as per other sub-studies in REACT-2. Participants are then asked to repeat the test, administered by a trained healthcare professional. A photograph of the test result is taken and uploaded via the secure web portal.

The healthcare professional also collects from participants: 1. Up to 5 spots of blood from the participant's finger that is lanced onto a dry blood spot (DBS) storage card. The blood spot card is allowed to dry for a minimum of four hours before it is shipped to the laboratory for storage in a humidity-controlled environment.

2. Venous blood samples (40 ml from existing members of the Airwave Study / 10 ml from all other study participants). This blood is a source of serum and plasma that is used for validation of SARS-CoV-2 antibody testing technologies. The additional blood collected from Airwave Study participants is used for haematology, clinical chemistry (e.g. serum cholesterol and HbA1C) and storage.

Participants are also asked to provide for RT-PCR testing:

• 2 ml of saliva into a pot.

• A self-swab of their throat and nose.

A video is played to the participants at the centre, providing clear instructions on the swabbing procedure. The self-swabbing is done in a private car before or after their appointment (as convenient) or under a shelter with two open sides (as used in drive up testing hubs). The participant is provided with a sealed bag and asked to drop their saliva pot and swab into a non-contact locked clinical waste bin. The laboratory technician wearing appropriate personal protective equipment (PPE) transfers the samples to cooled shipping containers at regular intervals. The saliva and swab are shipped to analytical laboratories each day.

The results of the throat and nose swab RT-PCR test and the laboratory antibody test are sent to participants. Participants are clearly advised that the results of both the LFIA and laboratory antibody test are for research purposes only. They are instructed to continue to follow UK government advice. The results of the RT-PCR analysis of the nose and throat swab indicate if the participant currently has an active SARS-CoV-2 infection or not. If the test result is positive, it is communicated to the participant via an email, text or phone call, within 3-4 days of their appointment. In practice, PCR results are communicated within 48 hours to participants. We specify "within 3-4 days" to manage expectations and potential laboratory processing delays due to increased demands on testing during the pandemic.

Details of those with a positive test are passed to NHS Test and Trace in line with statutory requirements. If the participant is either symptomatic or has a positive RT-PCR test or both, they are instructed to self-isolate along with other members of the household according to Government advice.

We consider statistical power for the LFIA and possible heterogeneity by job type, age and sex. For 80% power and 95% confidence to detect differences between the sensitivity of the antibody tests with the healthcare professional-administered test at 65% and the participant-administered test at 55%, we require 222 individuals per healthcare professional/participant-led arms, giving 20 classes (2 genders, 10 age groups, and officers/staff) and a minimum of 4,440 participants. Additional participant numbers allow for test failures and differences in sensitivity from those estimated above. For the RT-PCR testing at 0.5% prevalence 5,500 participants gives around 27 positive cases.

Outcomes LFIA performance, acceptability and usability among key workers are assessed with i) finger-prick self-testing; ii) finger-prick healthcare professional-administered testing; and iii) plasma in the laboratory.

These data provide evidence as to whether LFIAs should be used as a self-administered test among key workers or whether better performance is obtained if they attend a central clinic facility, e.g. for blood draw.

For comparison of individual LFIA performance, we compare cases where paired results from an individual are available from the clinic and laboratory. We calculate sensitivities and 95% confidence intervals and test differences using the McNemar test for dependent groups. Agreement between the testing methods is assessed using the Kappa statistic 15 .

Comparison of results from the throat and nose swab and saliva RT-PCR test is used to investigate the use of saliva as an alternative means of obtaining a virological sample that could be safely collected in the home setting.

We examine prevalence of RT-PCR and antibody positive test by age, sex and job type, comparing participant versus healthcare professional administration of the LFIA test. In addition, antibody results from plasma are used to compare with those from the use of the dry blood spot which could be self-administered at home as an alternative means to detecting SARS-CoV-2 antibodies.

The REACT programme studies obtained research ethics approval from the South Central-Berkshire B Research Ethics Committee (IRAS ID: 283787). Participants provide informed consent when they register for the studies, and all data are handled securely in accordance with a detailed privacy statement. A REACT Study Public Advisory Panel meets fortnightly to provide ongoing input into the research design, delivery and dissemination.

To ensure that the outputs from the research inform and support the international, national and local public health response to COVID-19 in a timely manner, we will publish preprints of the main study findings. Reports are submitted weekly to key stakeholders, including the UK Department of Health and Social Care, and are fed into key government committees. We also work with our Public Advisory Panel to identify and produce materials, including infographics and blogs, to disseminate our findings to non-academic audiences and the general public.

The REACT programme is a series of studies that are seeking to improve understanding of how the COVID-19 pandemic is progressing across England. To do this, the programme is carrying out two major pieces of work that are looking at the possibility of using home sampling and testing to track the infection. REACT-1 examines, over time, how many people across England are currently infected with SARS-CoV-2. REACT-2, firstly assesses a number of different antibody tests to see how accurate they are and how easily people can use them at home. Then, a large national seroprevalence study is rolled out to explore how far the virus has spread across the country and what proportion of the population have been infected and recovered.

Together REACT-1 and REACT-2 will improve our understanding of the transmission of the virus in the community to help guide policies on continued social distancing and other control measures.

No data are associated with this article.

testing-a concern. BMJ. 2020; 369: m2420.

community in England as an indicator of prior exposure to SARS-CoV-2 infection and assess how levels of exposure change in England over time. The study is using self-administered tests, nasal and throat swabs for viral RT-PCR detection and lateral flow immunoassay for IgG antibodies.

This is clearly a challenging and impressive piece of work that has been planned, that adds value to a number of areas of understanding of COVID-19 disease transmission and SARS-CoV-2 infections in the community. It will also provide critical information on understanding how members of the public interact with self-administered home tests for infectious diseases, and therefore will add value outside of the SARS-CoV-2 pandemic as well.

The protocol is well written and includes enough detail to follow the procedures. The aims of study are clearly laid out. It already has ethical approval and has PPI, which reassures me that it has already been through rigorous review both internally and externally. Therefore the comments I have made below are minor and may just require extra clarification either in response to my comments or in the protocol. How does the study intend to deal with vaccine recipients or those enrolled on vaccine trials? This should be included in the protocol.

Please provide the study timelines and frequency of sampling for both REACT-1 and REACT-2. Also, will the study sample with replacement? ○ Will the studies exclude participants from institutional settings such as care homes/prisons? ○ How will the study deal with adverse advents related to testing in participants?

Pg 4 Sample size -It is a large assumption to assume independence within each LA particularly in metropolitan areas and tourist destinations can the authors justify this assumption? ○ Pg4 Secondary outcomes -Household composition/size, occupation, schooling and behaviours (out of house contact), seem to not be included, is this intentional as these would seem like key variables? ○ How will they manage clinical illness or swab positive illness in complicated scenarios (e.g. key workers, those working with vulnerable groups), will this be left to test and trace? Will a clinician be available to advise positive participants? ○ Pg 4 Data analysis -How will multivariable models be specified particularly secondary outcomes, will you use apriori decisions, stepwise approaches etc.?

My main question is why are children excluded from the study? This seems a shame to miss such an important part of the population? The studies include care home residents but not individuals in detention settings.

There is an agreed protocol in place for reporting adverse events to the Medicines and Healthcare products Regulatory Agency (MHRA). There is a specific question asking about adverse events in the questionnaires. Participants are also provided with a study email address and contact number to use to report any adverse events.

We didn't know what the spatial correlation structure would be in these data, nor that it would even be constant. Therefore, we thought that direct use of the data for public health would start from independent estimates of local prevalence, hence the power calculation was made to ensure that the sample was large enough that there would be useful data in each local area.

Pg4 Secondary outcomes -Household composition/size, occupation, schooling and behaviours (out of house contact), seem to not be included, is this intentional as these would seem like key variables? These were included in the questionnaire. Study material, including the questionnaires for all study rounds can be found on the REACT webpages: https://www.imperial.ac.uk/medicine/research-and-impact/groups/react-study/ How will they manage clinical illness or swab positive illness in complicated scenarios (e.g. key workers, those working with vulnerable groups), will this be left to test and trace? Will a clinician be available to advise positive participants?

The study formally reports all positives to Public Health England to be passed on to NHS Test and Trace in exactly the same way as positives arising from Pillar 2 testing. This is explained to participants during the consent process.

Pg 4 Data analysis -How will multivariable models be specified particularly secondary outcomes, will you use apriori decisions, stepwise approaches etc.?

We use a core set of variables for the multivariable model and then consider additional variables when prevalence is high enough. The core variables are: sex, age, region, ethnicity, work type, and household size.

Reviewer Report 09 November 2020 https://doi.org/10.21956/wellcomeopenres.17824.r40921 © 2020 Parsonnet J. This is an open access peer review report distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Division of Infectious Diseases, Department of Medicine, Stanford University School of Medicine, Stanford, CA, USA I've already seen some of the results of this work posted on a preprint server -it is important to get the methods out and published so that the study design can be referenced and understood as results become available.

This is a clearly written paper about an important epidemiological study. I think the study may have some problems down the line, particularly with participation of certain population groups. However, that is a problem inherent in many "population-based" research studies that rely on willingness of people to join the research.

The last epidemiological data for this study are from August 17, 2020. It would be nice to see this updated.

What is the magnitude of change in RT-PCR prevalence or seroprevalence or that will be detectable in these studies? Are the sample sizes sufficient to assess population subgroups by age or ethnicity?

Why do the investigators use 2019 controls for their testing of the LFIA's specificity rather than asking negative subjects to perform the tests? What if they can't read a negative? Also, LFIA's when done wrong, usually come out negative. For example, if no blood is put in the well, many LFIA's would read that as a negative result (not an inadequate test). If that is the case, whether an observer reads the test or the subject, the results will be wrong either way. They may be concordant, but they will be wrong. How do the investigators assess this problem?

It would be good to see the previous work showing 1/3 would participate. This is far more than what is being seen in US studies.

Also, by only testing sensitivity of serologies 21 days after RT PCR diagnosis, the authors are maximizing test sensitivity. In reality, people at home will, not infrequently as rates rise, be in the first week or two of infection. How do the investigators expect to control for this possibility? Also, serology reflects a survival bias, particularly among the elderly.

Overall, I'm very enthusiastic to see this paper indexed. The paper is sound as is and these are minor questions.

Is the rationale for, and objectives of, the study clearly described?

the structure of the study and the approaches to sampling are transparent. Combined with the local prevalence estimation power and the need to collect as much data as possible on prevalence and infection as possible, this work is contributory. Furthermore, it should be realised that the current pandemic situation has had a net positive effect on recruitment into studies like thisthough this is likely to be demographically structured.

Overall this is a retrospective protocol paper, but a valuable tool and reference point. The study has been a great example of agility and contribution to the understanding of COVID_19 dynamics and whilst there are limitations, these are understood as the structure of the work is open for scrutiny. The only additional comment is that there is "no data associated with this article" -it would be great to include a link or reference to the availability of REACT study original data.

Reference Source

Estimating the effects of nonpharmaceutical interventions on COVID-19 in Europe

Estimating number of cases and spread of coronavirus disease (COVID-19) using critical care admissions

Evidence Supporting Transmission of Severe Acute Respiratory Syndrome Coronavirus 2 While Presymptomatic or Asymptomatic

Rapid roll out of SARS-CoV-2 antibody

The volunteers seems to be very London centric, would it not be sensible to open it open to groups outside of London, as this is meant to be a England wide study? ○

Pg 8 -It says that study results will be communicated within 3-4 days, why the delay? This is much slower than in REACT-1 and in current pillar 2 testing. Since these are key workers a rapid result would be far preferable should public health action need to be taken.○ Is the rationale for, and objectives of, the study clearly described? Yes

Are the datasets clearly presented in a useable and accessible format? Not applicable Please provide the study timelines and frequency of sampling for both REACT-1 and REACT-2. Also, will the study sample with replacement?The study samples with replacement. Study timelines to date (further rounds will depend on securing additional funding from the Department of Health and Social Care):

My main question is why are children excluded from the study? This seems a shame to miss such an important part of the population? MHRA did not give approval to use the lateral flow device in children in the unsupervised (at-home) setting in REACT-2. The Study Investigators and the manufacturer of the lateral flow device used in REACT-2 had to seek derogation approval for unsupervised use in adults for research purposes as it is not currently licensed for self-use.

We have performed risk factor analyses for REACT-1 and REACT-2 independently. Our list of current publications can be found on the REACT webpages: https://www.imperial.ac.uk/medicine/research-and-impact/groups/react-study/ Other analyses are planned and prioritised to deliver the most useful insights and impact on the ongoing pandemic response.

Yes, we ask questions regarding previous SARS-CoV-2 infection. Study material, including the questionnaires for all study rounds can be found on the REACT webpages: https://www.imperial.ac.uk/medicine/research-and-impact/groups/react-study/

Volunteers were recruited through existing public involvement networks, including a list of COVID public volunteers (n=200) who volunteered to support research and response planning at Imperial. These volunteers were recruited through VOICE-global ( https://www.voice-global.org/), an online platform for public involvement in research established by Newcastle University. Using this platform allowed us to recruit volunteers from outside of London. All public meetings were hosted online to facilitate contributions from people outside London.

This is much slower than in REACT-1 and in current pillar 2 testing. Since these are key workers a rapid result would be far preferable should public health action need to be taken.In practice study PCR swab results were all communicated within 48 hours to participants. We specified "within 3-4 days" in the protocol to manage expectations and potential delays if the laboratory ran into capacity issues during the pandemic with increased demands on testing.

Yes

Are sufficient details of the methods provided to allow replication by others? YesAre the datasets clearly presented in a useable and accessible format? Not applicableCompeting Interests: No competing interests were disclosed.Reviewer Expertise: Infectious diseases epidemiology.

Reviewer Response 29 Sep 2020Nic Timpson, University of Bristol, Bristol, UKThe protocol for the REACT study collection of data for COVID-19 antibodies is an important contribution. The team should be commended on the speed at which they brought this together and the utility to the study in its ability to comment on prevalence and the patterns of infection over 2020.From a study PI point of view (and I declare that I have worked with the REACT team in the development of a protocol for my own cohort study), the reporting of this protocol is critically important and helpful. There are idiosyncrasies of the seroprevalence process and the use of home testing and to have the protocol published here, openly, is a real asset. This is particularly true for the participant facing work undertaken for the home based testing. Furthermore, understanding the full design and sampling frame of the REACT study goes further to aid the interpretation of the REACT study results.A key part to the deployment of the REACT protocol is the explanation of the appropriate nature of the LFIA as a home testing kit with known properties. The "imperfect" nature of the test and the ability to still use this in a sensible and contributory manner is explained really well here and the niche for this type of testing is made very clear.There are obvious limitations to the work -not to mention the self selected nature of the sample and the sample size (given the aspirations of the work and the conclusions being drawn), howeverCompeting Interests: I have worked with the REACT team and with their help in the development a study protocol for testing in the Avon Longitudinal Study of Parents and Children.