The primary purpose of this response letter is to update the protocol to revise the sample size of the Compass Trial.

Summary

Compass is a randomised controlled trial, operating alongside the Australian National Cervical Screening Program (NCSP). Under the auspices of the Independent Data Safety Monitoring Committee (IDSMC) and Scientific Advisory Committee (SAC) we have performed a re-analysis of our original estimate of the total trial sample size. This was prompted by two factors: (1) impact of the NCSP transition to primary HPV screening and (2) emergence of new evidence relevant to the sample size calculation. With consideration to the resource implications of the renewed program on trial recruitment and acknowledging that the original sample size of 121,000 women for the main trial was calculated in 2014 (prior to the emergence of new relevant evidence) the trial sample size was re-estimated.

The sample size recalculation has resulted in a reduced recruitment target for the cohort of women in Compass Trial who were age-eligible for publicly funded HPV vaccination in Australia (the younger cohort) from 84,700 to 40,000 women; consequently the total recruitment target has been revised from 121,000 to 76,300. The updated sample size estimate has been approved by the Human Research Ethics Committee and is reflected in the trial registration (ClinicalTrials.gov Identifier: NCT02328872).

(1) Impact of the NCSP transition to primary HPV screening

In December 2017, the NCSP underwent a process known as ‘Renewal’ which saw the program transition from 2-yearly conventional cytology in women aged 18/20–69 years (similar to the control arm in Compass) to 5-year primary HPV screening with partial genotyping for HPV16/18 in women aged 25–74 years (similar to the intervention arm of Compass). The Compass pilot study began recruitment in 2014, followed by the initiation of recruitment of the main trial in 2015, both of which have provided a sentinel experience for Renewal. The transitional implications of Renewal on the Australian healthcare system were extensive,1 and from early 2017 a decrease in the overall Compass monthly recruitment rate was noted which were likely due to the workload and other resourcing implications of the program transition.

However, analysis of recruitment data has demonstrated that the decrease in overall recruitment appears to be related to the number of actively recruiting practitioners and not the recruitment rate experienced among actively recruiting practitioners. The recruitment rate remains very high for practitioners and practices who continue to recruit, with an average recruitment rate of >80% for active practitioners (defined as those who have sent at least 1 cervical sample for the Compass trial to VCS within the calendar month), between December 2017 and November 2019. Therefore, women approached to participate in the trial have continued to choose to participate at a very high rate, indicating broad acceptability of the trial from the perspective of potential participants. Nevertheless, the trial investigators have judged that continuing to recruit at the current rate has become impractical.

(2) Emergence of new evidence relevant to the sample size calculation.
The sample size re-estimate has been based on extensive modelling of the effects of accounting for emergent data on HPV vaccine effect in the Australian population and emergent outcomes from the Canadian HPV FOCAL Trial.2 A total average CIN3+ rate at exit in the Compass LBC arm of 0.94% will now be assumed, based on updated national Australian data on vaccine coverage rate in the age-cohorts captured in trial recruitment (of 59.1%) and a consequent assumed overall population-level vaccine effectiveness rate against CIN3+ in the trial cohort of 20%.3, 4

Changes to protocol

The change in target sample size has impacted the following sections of this protocol paper:

Abstract- Method and Analysis

Original Article: A total of 36,300 women in birth cohorts not offered vaccination and 84,700 women in cohorts offered vaccination will be recruited, bringing the final sample size to 121,000.

Amend To: A total of 36,300 women in birth cohorts not offered vaccination and 40,000 women in cohorts offered vaccination will be recruited, bringing the final sample size to 76,300.

Primary outcomes, statistical design and sample size calculations

Original Article: Assuming a total average cervical intraepithelial neoplasia grade 3 (CIN3) or more severe diagnoses (CIN3+) rate in the liquid-based cytology (LBC) arm (across unvaccinated and vaccinated women) of 0.60%, and an absolute non-inferiority margin of 0.22%, the trial will have >90% power with 97.5% confidence to detect non-inferiority for the human papillomavirus (HPV) arm, allowing for a 10% non-compliance rate. This sample is adequately powered to detect this margin should the LBC rates be higher than the assumed 0.60%. The non-inferiority comparison will be one sided and all other comparisons will be two sided. All comparisons will use a 0.05 level of significance.

Amend To: A total average CIN3+ rate at exit in the Compass LBC arm of 0.94% will be assumed, based on updated national Australian data on vaccine coverage rate in the age-cohorts captured in trial recruitment (of 59.1%) and a consequent assumed overall population-level vaccine effectiveness rate against CIN3+ in the trial cohort of 20%. Assuming an absolute non-inferiority margin of 0.22% (as per trial registration), with a total recruitment of 40,000 in the younger cohort, the trial will have 78% power with 97.5% confidence to detect non-inferiority for the HPV arm, allowing for a 15% non-compliance rate.

Original Article: A total of 36,300 women in the birth cohorts not offered vaccination and 84,700 women in the cohorts offered vaccination will be recruited, bringing the final sample size to 121,000. Of these, 7,700 women will be recruited for a safety monitoring sample (10% of HPV screen-negative participants presenting for routine screening). Those presenting for routine follow-up (approximately 5%) will be assigned to the management branch of the arm to which they will be randomised. These women, however, will not be included in the analysis for the primary outcome.

Amend To: A total of 36,300 women in the birth cohorts not offered vaccination and 40,000 women in the cohorts offered vaccination will be recruited, bringing the final sample size to 76,300. Of these, 4,414 women will be recruited for a safety monitoring sample (10% of HPV screen-negative participants presenting for routine screening). These women, however, will not be included in the analysis for the primary outcome. Those presenting for routine follow-up (approximately 5%) will be assigned to the management branch of the arm to which they will be randomised.

Original Article: For this critical secondary outcome, the sample size for women not offered vaccination was based on estimated CIN3+ rates at 5 years in women who test cytology negative and HPV negative at baseline (round 1) of 0.48% and 0.26%, respectively, estimated rates of negative cytology tests at baseline of 90.8% (VCCR 2012, unpublished data) and a loss to follow-up rate of 5% in each arm. For women who were offered vaccination, the sample size was based on an estimated three-dose vaccination coverage of 75% and an estimated overall population-level vaccine effectiveness of 70% (from a specific modelled analysis to support these estimates), estimated CIN3+ rates at 5 years in women who test cytology negative and HPV negative at baseline (round 1) of 0.23% and 0.12%, estimated rates of negative cytology tests at baseline of 82% (VCCR 2012, unpublished data) and a loss to follow-up rate of 5% in each arm.

Amend To: For this critical secondary outcome, the sample size for women not offered vaccination was based on estimated CIN3+ rates at 5 years in women who test cytology negative and HPV negative at baseline (round 1) of 0.48% and 0.26%, respectively, estimated rates of negative cytology tests at baseline of 90.8% (VCCR 2012, unpublished data) and a loss to follow-up rate of 5% in each arm. For women who were offered vaccination, the sample size was based on an estimated three-dose vaccination coverage of 59.1% and an estimated overall population-level vaccine effectiveness of 20% against CIN3+, estimated CIN3+ rates at 5 years in women who test cytology negative and HPV negative at baseline (round 1) of 0.48% and 0.25%, respectively, estimated rates of negative cytology tests and negative HPV tests at baseline of 88% and 86%, respectively, and a loss to follow-up rate of 15% in each arm.

Performance of dual-stained cytology versus LBC as a triage test

Original Article: Based on pilot study results,27 we expect that after 1-year follow-up for triage-negative women and subsequent referrals are taken into account, the performance of LBC (at a pHSIL/ASC-H threshold) and DS to detect CIN2+ in women with other high-risk (OHR) HPV will be broadly comparable. However, DS is expected to improve immediate detection of CIN2+ and thus minimise loss to follow-up at 12 months, thus increasing CIN2+ detection overall within a ‘real world’ screening programme.

We will use closed loop testing, and if non-inferiority is satisfied we will test for superiority for immediate detection of CIN2+ in the DS versus the LBC group. Analysis will be stratified by age eligibility for vaccination. About 24 200 participants who were not eligible for HPV vaccination will be randomised to the HPV arm. Of these, approximately 22 290 (95%) will be in routine screening at recruitment and about 784 (3.4%) of these will test OHR HPV positive. Assuming an immediately detected CIN2+ rate of 8.2% in the LBC triage arm (based on pilot study results), and an absolute non-inferiority margin of −5.5%, the trial will have 80% power with 97.5% confidence to detect non-inferiority for the DS triage group. About 56 468 participants who were eligible for HPV vaccination will be randomised to the HPV arm. Of these, approximately 53 645 (95%) will be in routine screening at recruitment and about 7548 (14.1%) of these will test OHR HPV positive. Assuming an immediately detected CIN2+ rate of 5.0% in the LBC triage sub-arm (based on pilot study results), and an absolute non-inferiority margin of −1.5%, the trial will have more than 80% power with 97.5% confidence to detect non-inferiority for the DS triage sub-arm.

Amend To: Based on pilot study results,5 we expect that after 1-year follow-up for triage-negative women and subsequent referrals are taken into account, the performance of LBC (at a pHSIL/ASC-H threshold) and DS to detect CIN2+ in women with other high-risk (OHR) HPV will be broadly comparable. However, DS may improve immediate detection of CIN2+ and thus minimise loss to follow-up at 12 months of those diagnosed with CIN2+, potentially increasing CIN2+ detection overall within a ‘real world’ screening programme.

This immediate detection of CIN2+ in the DS group versus the LBS group will first be tested for non-inferiority, and if non-inferiority is declared the outcome will be tests for superiority. We will use closed loop testing, and if non-inferiority is satisfied we will test for superiority for immediate detection of CIN2+ in the DS versus the LBC group. Analysis will be stratified by age eligibility for vaccination. About 24 200 participants not eligible for HPV vaccination will be randomised to the HPV arm. Of these, approximately 22 290 (95%) will be in routine screening at recruitment and about 784 (3.4%) of these will test OHR HPV positive. Assuming an immediately detected CIN2+ rate of 8.2% in the LBC triage arm (based on pilot study results), and an absolute non-inferiority margin of −5.5%, the trial will have 80% power with 97.5% confidence to detect non-inferiority for the DS triage sub-arm. About 26 667 participants eligible for HPV vaccination will be randomised to the HPV arm. Of these, approximately 22 400 (84%) will be in routine screening at recruitment and about 3024 (13.5%) of these will test OHR HPV positive. Assuming an immediately detected CIN2+ rate of 5.0% in the LBC triage sub-arm (based on pilot study results), and an absolute non-inferiority margin of −2.3%, the trial will have more than 80% power with 97.5% confidence to detect non-inferiority for the DS triage sub-arm.

Anticipated recruitment and analysis timing

Original Article: Recruitment for the pilot study began in 2013 and the recruitment target was met in late 2014. Recruitment for the main trial began in January 2015 and the target of 121 000 participants is anticipated to be attained in 2018. Final timing of analysis will be contingent on timing of recruitment in each arm. The timing for each planned analysis accounts for an additional period of 9 months added to allow for 3 months’ follow-up delay and 6 months to obtain histology outcomes.

For participants who were not age eligible for HPV vaccination, baseline analysis (including 12-month follow-up of those managed via 12-month surveillance) will be conducted in approximately January 2018. Analysis for the 2.5-year screening round (Arm A) and 2.5-year safety monitoring analysis (Arm B) is planned for July 2019, and analysis for the final 5-year outcomes is anticipated in early 2022. For participants who were age eligible for HPV vaccination, baseline analysis (including 12-month follow-up) for a subset for which sufficient follow-up is available is anticipated in approximately January 2018. Final baseline screening round analysis is anticipated in 2019–2020. The 2.5-year screening round (Arm A) and the 2.5-year safety monitoring analysis (Arm B) are anticipated in 2021–2022, and the final 5-year outcome analysis is expected in 2023–2024. Thus, the estimated trial completion date is 2024 although as noted long term passive follow-up through registries will also be conducted, pending ethical approval for such follow-up.

Amend To: Recruitment for the pilot study began in 2013 and the recruitment target was met in late 2014. Recruitment for the main trial began in January 2015 and the target of 76,000 participants is anticipated to be attained in late 2019. Final timing of analysis will be contingent on timing of recruitment in each arm. The timing for each planned analysis accounts for an additional period of 9 months - to allow for 3 months’ follow-up delay and 6 months to obtain histology outcomes.

Baseline analysis (cross sectional outcomes for CIN2+ and CIN3+ detection in each arm at baseline, with no surveillance) for both cohorts will be conducted in 2020. 12-month follow-up analysis for both cohorts will be conducted in 2021. Analysis for the 2.5-year screening round (Arm A) and 2.5-year safety monitoring analysis (Arm B) is planned for 2020-2022, and analysis for the final 5-year outcomes is anticipated in 2022-2025. Thus, the estimated trial completion date is 2025 although as noted long term passive follow-up through registries will also be conducted.

Publication revisions related to operational changes

Compass is a real-world randomised controlled trial, operating alongside the Australian National Cervical Screening Program (NCSP). The pragmatic nature of the trial, whilst a strength, does mean the trial is highly influenced by external factors. Over the course of the trial, the following changes have been reflected in the protocol;

• VCS Ltd has been renamed as VCS Foundation.

• Due to decision making at a government level several registers previously held by VCS Foundation were transferred to centralise locations. From the end of 2018 Victorian Cervical Screening Registry (VCCR) and the South Australian Cervix Screening Registry (SACSR) were transferred to the National Cancer Screening Register (NCSR) and the National HPV Vaccination Program Register (NHPVR) was transitioned to the Australian Immunisation Register (AIR). Throughout the entirety of the protocol, all references to VCCR in the protocol should be read as The Compass Register, which is hosted at VCS Foundation.

• The process for exiting participants who have completed all Compass tests in line with the study arm to which they were assigned, who have a normal 5 years screening result, and women who have an abnormal screening result at 5 years and are followed-up until their screening episode has resolved, has been included in the operational protocol. This includes a detailed explanation on the passive follow-up processes, resulting in a change to the “Long-term outcomes” section of the published protocol, as per the below;

Long-term outcomes

Original Article: Pending ethical and data custodian approvals, long-term outcomes will be examined in all participants, including outcomes at 10 and 20 years post-recruitment (although women will return to routine screening practice after 5-year exit testing). Women will be passively followed over time using registry data for long-term outcomes for CIN2+ and CIN3+, and invasive cervical cancer. This will be done for a number of subgroups including women who cease screening at different ages, women who start screening at different ages and women in broad age strata who have different patterns of screening behaviours (eg, regular 5-year screening vs irregular screening or under-screening). We will also assess outcomes in women who access self-collected HPV testing after trial exit as part of the renewed HPV-based cervical screening program in Australia.

Amend To: Following completion of all Compass-related tested, women will be sent an exit letter from the VCS Foundation. The letter will serve to confirm that they have finished trial participation, thank them for their contribution to cervical cancer research and instruct the women on when they should next attend for cervical screening/follow-up. Additionally, the letter will include the information on the transition of their data to the National Cancer Screening Register (NCSR) (unless they opt-off) and inform them that the Compass researchers will access their future cervical screening results through the NCSR for the purpose of long-term analysis (specific analysis will be conducted pending ethical approval) and provide the option to opt-out of further passive follow-up by contacting the free call Compass hotline.
For women who have not opted-out of further passive follow-up, long-term outcomes will be examined in all participants, including outcomes at 10 and 20 years post-recruitment (although women will return to routine screening practice after 5-year exit testing). Women will be passively followed over time using registry data for long-term outcomes for CIN2+, CIN3+, and invasive cervical cancer. This will be done for a number of subgroups including women who cease screening at different ages, women who start screening at different ages and women in broad age strata who have different patterns of screening behaviours (e.g., regular 5-year screening vs irregular screening or under-screening). We will also assess outcomes in women who access self-collected HPV testing after trial exit as part of the renewed HPV-based cervical screening program in Australia

• In the operational protocol we have described the orderly close out of the recruitment phase of the trial. Active recruitment of participants to the trial ceases on the 30th of November 2019, samples which are received at VCS Foundation with a signed consent form on or before the 31st of December 2019 will be randomized into the trial. Any samples received from the 1st January 2020 will be tested and followed-up through the routine NCSP. This impacts the “Recruitment” section of the publication, which should be read as per the below;

Recruitment

Original Article: Potential participants will be identified by medical practitioners or nurses at one of the participating primary healthcare clinics or sexual health clinics. Recruiting practitioners will be shown how to obtain informed consent and the VCS liaison physicians will regularly liaise with practitioners throughout the duration of the trial to support compliance with the study protocol. The practitioner will decide whether the woman is able to make informed consent and if so, invite her to participate in the trial. Eligible women will be given an information sheet to read. If they choose to participate, they will be provided with a consent form to read and sign and will have a routine cervical sample collected into an LBC phial. The LBC sample phial will be labelled and sent to VCS Pathology with the signed patient consent form. Each consent form will be scanned and stored electronically as part of the VCS Pathology laboratory record. Participants will be recruited until the recruitment targets are met for each of the pre-specified age strata.

Amend To: Potential participants will be identified by medical practitioners or nurses at one of the participating primary healthcare clinics or sexual health clinics. Recruiting practitioners will be shown how to obtain informed consent and the VCS liaison physicians will regularly liaise with practitioners throughout the duration of the trial to support compliance with the study protocol. The practitioner will decide whether the woman is able to make informed consent and if so, invite her to participate in the trial. Eligible women will be given an information sheet to read. If they choose to participate, they will be provided with a consent form to read and sign and will have a routine cervical sample collected into an LBC phial. The LBC sample phial will be labelled and sent to VCS Pathology with the signed patient consent form. Each consent form will be scanned and stored electronically as part of the VCS Pathology laboratory record. The recruitment target for the older cohort of women was met in April 2016. The revised recruitment target for the younger cohort of women is anticipated to be met in late 2019. Active recruitment of participants to the trial ceases on the 30th of November 2019, samples that are received at VCS Foundation with a signed consent form on or before the 31st of December 2019 will be randomized into the trial. Any samples received from the 1st January 2020 will be tested and followed-up through the routine NCSP.

• The reference to HPV type 45 being referred to colposcopy has been removed. This is in line with the national guidelines in Australia but not directly applicable to the study as an HPV testing platform which partially genotypes only for HPV16/18 is used in Compass. This has no impact on the trial design or analysis; Figure 1 and Figure 2 from the operational protocol have been revised accordingly.
In relation to this change we attach the following updated document;

Referenced Compass Trial Document:
• Compass Operational Protocol Version 1.8

References
1. Smith M, Hammond I, Saville M. Lessons from the renewal of the National Cervical Screening Program in Australia. Public Health Res Pract. 2019;29(2):e2921914.
2. Ogilvie GS, van Niekerk D, Krajden M, et al. Effect of Screening With Primary Cervical HPV Testing vs Cytology Testing on High-grade Cervical Intraepithelial Neoplasia at 48 Months The HPV FOCAL Randomized Clinical Trial. JAMA. 2018;320(1):43–52. doi:10.1001/jama.2018.7464
3. http://www.hpvregister.org.au/research/coverage-data, access date: November 2018
4. Brotherton JML, Lui B, Donovan B, et al. Human papillomavirus (HPV) vaccination coverage in young Australian women is higher than previously estimated: Independent estimates from a nationally representative mobile phone survey.2014; 32(5) 592-597. https://doi-org.ezproxy.u-pec.fr/10.1016/j.vaccine.2013.11.075.
5. Canfell K , Caruana M , Gebski V , et al . Cervical screening with primary HPV testing or cytology in a population of women in which those aged 33 years or younger had previously been offered HPV vaccination: Results of the Compass pilot randomised trial. PLoS Med 2017;14:e1002388.doi:10.1371/journal.pmed.1002388