key: cord-0708871-gduhterq authors: Spitzer, Ernest; Ren, Ben; Brugts, Jasper J; Daemen, Joost; McFadden, Eugene; Tijssen, Jan GP; Van Mieghem, Nicolas M title: Cardiovascular Clinical Trials in a Pandemic: Immediate Implications of Coronavirus Disease 2019 date: 2020-05-01 journal: Card Fail Rev DOI: 10.15420/cfr.2020.07 sha: 12a1c1aade00c735f4e84a59a02a25c33876e2d6 doc_id: 708871 cord_uid: gduhterq The coronavirus disease 2019 (COVID-19) pandemic started in Wuhan, Hubei Province, China, in December 2019, and by 24 April 2020, it had affected >2.73 million people in 185 countries and caused >192,000 deaths. Despite diverse societal measures to reduce transmission of the severe acute respiratory syndrome coronavirus 2, such as implementing social distancing, quarantine, curfews and total lockdowns, its control remains challenging. Healthcare practitioners are at the frontline of defence against the virus, with increasing institutional and governmental supports. Nevertheless, new or ongoing clinical trials, not related to the disease itself, remain important for the development of new therapies, and require interactions among patients, clinicians and research personnel, which is challenging, given isolation measures. In this article, the authors summarise the acute effects and consequences of the COVID-19 pandemic on current cardiovascular trials. trials may not be able to attend hospitals for follow-up visits or to collect study medications. A careful and periodic risk assessment by sponsors and investigators is required to preserve the safety of trial participants (and employees) and the integrity of trials. In this article, we summarise the immediate implications of the COVID-19 pandemic on ongoing cardiovascular trials. This review incorporates recent recommendations from the US Food and Drug Administration (FDA), the European Medicines Agency, the UK's Medicines and Healthcare products Regulatory Agency and Australia's Therapeutic Goods Administration, as well as personal views. [9] [10] [11] [12] [13] [14] Planning, executing and reporting clinical trials designed for the approval of (or to extend indications for) drugs, biological products, devices and combinations thereof, are highly regulated activities. Clinical trialists must observe national regulations, as well as international standards, such as those proposed by the International Conference of Harmonization, the International Organization for Standardization and the International Medical Device Regulators Forum. Two general principles governing the execution of clinical trials are ensuring patient safety and clinical trial integrity. According to the WHO, patient safety is "the absence of preventable harm to a patient during the process of health care and reduction of risk of unnecessary harm associated with health care to an acceptable minimum." 15 As defined by the FDA, data integrity refers to "the completeness, consistency, and accuracy of data. Complete, consistent and accurate data should be attributable, legible, contemporaneously recorded, original or a true copy and accurate (ALCOA)." 16 Data are to be recorded exactly as intended, and when retrieved at a later time, should be the same as originally recorded. While patient safety is paramount, both should be prioritised for the successful execution of clinical trials. If data integrity is compromised, study results may no longer be interpretable, reliable or usable. A pandemic has the potential to directly impact all individuals and organisations involved in clinical research (Figure 1) . Highly contagious and rapidly spreading viruses, such as SARS-CoV-2, require comprehensive measures to avoid human-to-human spread. With the ongoing pandemic, the world has progressively witnessed a reduction of airline activity to almost zero with widespread travel bans, and limitation of private and public transportation, temporary closure of retail businesses, banning of public gatherings and the requirement to work from home. All these measures are designed to limit exposure to potential carriers of the virus. Individual measures, such as meticulous hand hygiene, self-isolation and social distancing, are encouraged. Public measures, such as quarantines, curfews or lockdowns, have been implemented. However, sectors, such as healthcare, food supply chains, law enforcement, governmental agencies and regulatory bodies, remain indispensable, with an increased workload challenging the capacity of local and national systems, as well as risking (if not sufficiently protected) the well-being of individuals. Overall, the majority of people stay at home, work remotely and limit use of healthcare systems as much as possible. The clinical trial life cycle can be divided into trial design and registration, trial start-up, enrolment, follow-up, reporting and regulatory submission. Changes in trial conduct should be documented and, if substantial, incorporated as protocol amendments (although not in an expedited manner unless impacting on patient safety); lesser changes may be captured as protocol deviations related to the pandemic. Regulatory agencies offer a diverse range of flexibility in such procedures, and applicable guidance documents should be consulted to establish the most appropriate approach for a particular trial. [9] [10] [11] 13, 14 Trial enrolment should be put on hold or stopped if there is significantly reduced feasibility (e.g. drug trials with infusions), when participants require intensive care post-treatment (e.g. surgical trials) or when the investigator is unavailable. When inclusion is delayed by the pandemic, it should be dealt with in a similar manner to other circumstances that lead to a low recruitment rate. If appropriate, and especially if foreseen by the protocol, a data and safety monitoring board may assess futility due to severe impact on data collection or outcomes. However, if stopping or putting on hold a trial puts participants at increased risk, efforts should be taken to continue with trial-related activities. Enrolment in cardiovascular trials generally takes place at outpatient visits or during hospitalisation. Trials in patient populations with acute presentations (e.g. ST-elevation MI [STEMI]) may identify potentially suitable trial candidates; however, the capacity to comply with study procedures needs to be assessed, as well as considerations related to patient safety during follow-up. It is also pertinent to consider that COVID-19 may mimic some classical presentations, such as STEMI; ECG changes are shown to reflect myocarditis, after angiography demonstrates non-obstructive disease. It is problematic when the trial design mandates a protocol-related treatment before angiography. Furthermore, the analysis of outcomes may be rendered more difficult, and parallel analyses of the intention-to-treat and per protocol populations will be pertinent. Participants in the follow-up phase (when they are generally at home) constitute a higher-risk population in the Reduced capacity at investigational sites will impact on availability to perform study visits (or phone calls) to assess and confirm eligibility, enter data in electronic case report forms (eCRFs), to report (serious) adverse events and to follow the protocol in general. All protocol deviations should be noted, with those that are pandemic related clearly Participants should be given the option to continue, suspend or withdraw participation. Reporting of sever adverse events is expected to continue according to standard procedures and regulation. DSMBs may be appointed to determine feasibility of continuing trials based on overall conduct, patient safety and date integrity. All meetings should be remote, by means of teleconference/ video conferencing. Steering committee calls, investigator meetings, endpoint adjudication committees and DSMBs should meet remotely with appropriate technology in place. Consideration should be given to changes that limit the exposure of participants, investigators and staff to SARS-CoV2; changes in enrolment and testing. Reporting should differentiate between pre-pandemic, peri-pandemic and post-pandemic, as well as COVID-19 positivity/negativity. Novel trial approaches that reduce physical contact Remote site management and monitoring could be considered, if feasible (i.e. privacy issues and site workload are considered). Consider virtual visits, telemedicine, electronic consent or teletrials. Change site location outside the hospital. Deliver medication to homes. Clinical research organisations need to swiftly transition into home-based organisations and increase level of oversight to deliver urgent and ongoing responsibilities. Remote systems need to be upgraded to allow adequate online execution and oversight. Ongoing core laboratory activities during a pandemic Core laboratories continue operations utilising virtual environments to analyse and review materials. Remote analysts and supervisors utilise secure platforms with access to required validated analysis software and study datasets. Continued ICT support is pivotal. Perform risk-bene t assessment. Decide to continue with or without changes, to put on hold or stop trials. Evaluate feasibility of protocol adherence or need for modi cation. Evaluate capacity to continue trials based on human resources, logistics and drug distribution. Limit enrolment. Prioritise pandemic-related research, as evidence-based treatments are lacking. Incorporate measures that limit physical contact between researchers and participants. Consider novel approaches that allow remote data capture and remote monitoring. identified. Most importantly, principal investigators must ensure that enrolled subjects fully comply with eligibility criteria and that all measures are taken to report adverse events in a timely fashion, given that these two are of paramount importance for patient safety. Coordinating centres may require an increased level of monitoring of eCRFs and a degree of flexibility in terms of timing for data cleaning. 9, 11, 13, 14 Large, multicentre collaborative trials require the participation of a coordinating centre, either a contract or an academic research organisation. Coordinating centres execute the study, or activities within, on behalf of the sponsor or manufacturer. A study team is composed of a project manager, clinical research associates and study monitors, data managers, biostatistician, quality assurance manager and safety reporting units, with or without a medical monitor. A pandemic prompts the need to work from home and cancel face-toface visits. Where systems are upgraded to allow remote work and staff remain available for reception of materials, coordinating centres can continue to operate during a pandemic. Site initiation and monitoring visits are cancelled, postponed or performed remotely using webbased technology (although source data verification can be postponed). Remote monitoring is possible, but might not be feasible at all participating sites in a trial and increases the workload at the site. Moreover, technical requirements, confidentiality issues, updated consents and the increased burden to site personnel could make it impractical. 13 In line with this, quality assurance measures, such as site audits, are postponed unless serious non-compliance is identified. The participation of several committees in clinical trials ensures proper scientific and operational oversight, data integrity and quality, as well as patient safety. Typically, the steering committee is composed of established investigators or key opinion leaders, and representatives from parties involved (e.g. coordinating centres, sponsor, grant givers). During the pandemic, office-based professionals work from home, and participation may be limited. Nevertheless, given the oversight duties of the steering committee and data and safety monitoring boards, the frequency of meetings might need to be increased to address immediate pandemic-related needs. At the beginning of the pandemic, cardiovascular clinicians saw a reduction in patient load, as the population was advised to stay at home. Unfortunately, this has resulted in late presentations of severe conditions (e.g. non-STEMI or decompensated heart failure). However, as hospital resources are depleted, not only in materials but also in personnel, cardiovascular clinicians are required to perform pandemic-related tasks and to self-isolate, potentially limiting their availability for participation in committees. The same applies to members of clinical event committees and data and safety monitoring boards. Potential exceptions are data managers and biostatisticians. In theory, this could reduce the availability of clinicians to participate in committee calls; however, in practice, this might not be the case. Committed investigators tend to stretch time when required, as shown by Chinese investigators who managed to report initial cohorts despite being at the centre of the pandemic. 2, 4 All meetings are planned as teleconferences. Cardiovascular trials, particularly interventional trials, rely heavily on imaging. For the purpose of an unbiased and consistent analysis, central laboratories are utilised. Imaging modalities, such as echocardiography, ECG, cardiac MRI, angiography assessments, intracoronary imaging and cardiac CT, are frequently used. Thus, for a core laboratory to ensure timely delivery during a pandemic, conditions should allow analysts and supervisors to work remotely. Data should reach core laboratories electronically, with secure and certified datatransfer providers. Time windows for imaging follow-up might need to be adjusted and uploading activities may also be interrupted. Analysing cardiovascular images might not be as efficient at home when compared with a well-equipped work environment. However, remote access through a secure connection to software and datasets, as well as databases, will allow continuity of activities. Information and communication technology departments play a pivotal role in setting up and maintaining reliable infrastructure. A lack of remote access could force activities to stop during a pandemic. Safety reporting should continue in line with national regulations and following standard procedures. [9] [10] [11] 13, 14 Investigators should ensure timely capture of serious adverse events, a process that might involve extended use of telehealth. Moreover, serious adverse events should be identified, where possible, as pandemic or non-pandemic related. The inability to deliver investigational drugs could pose additional risks to participants and warrants an increased level of safety monitoring. 9,10 Ongoing trials lacking data and safety monitoring boards might need to revisit that decision on a per-case basis. Data and safety monitoring boards may independently assess an ongoing trial that has been severely affected by the pandemic (e.g. incomplete data, incomplete follow-up) to help investigators and sponsors elucidate, without compromising the integrity of the trial, whether continuing the trial will yield interpretable data. 12 A pandemic has a significant impact on the ability to adhere to protocol requirements (e.g. missed follow-up visits or tests). Importantly, protocol deviations should be documented with an indication that they are pandemic-related following standard procedures. 9,12-14 Data collection could be challenging, but should not stop. When reporting the results of a trial, cohorts might need to be divided as pre-pandemic, peri-pandemic and post-pandemic. 12 Statistical analysis plans might need adaptions when considering the influence of the pandemic in the interpretability of results, especially when endpoints share characteristics with COVID-19related events. 9 Guidance on the interpretability of results when analysing data with missing values, unbalanced completeness or out-of-window assessments (e.g. echocardiograms, control angiograms, laboratory values) might also be required, depending on the duration of the pandemic. For multicentre trials, a per-site assessment might be required for outbreak areas versus non-outbreak areas. The interpretability of the overall evidence generated should be discussed with regulatory authorities. 9,12-14 The use of vaccines, once available, might also require adequate documentation in study databases to avoid unbalanced usage. Ethics committees (ECs; or institutional review boards [IRBs]) and regulatory agencies experience a significant increase in activity during a pandemic. ECs/IRBs face the burden of protocol amendments for ongoing trials, and prioritise activities related to the pandemic, including the review of COVID-19 trial submissions. 9,12-14 Regulatory agencies play a critical role in protecting citizens from threats, including emerging infectious diseases, thus the importance of providing timely guidance, such as the regulatory documents that form the basis of this article. [9] [10] [11] [12] [13] [14] Based on accumulating experience, the advice of ECs/IRBs and regulatory agencies to sponsors and investigators could be critical to determine the continuation, modification or pause of trial activities. Such recommendations are complex, given the uncertainties related to the pandemic duration. A pandemic has a significant impact on every component of cardiovascular clinical research. When facing a rapidly spreading disease with no effective treatment or vaccine, efforts should be focused on facilitating the day-to-day work of healthcare professionals with required personal protective equipment. Pandemic-related investigations should be prioritised. Nevertheless, sponsors and investigators should take all necessary actions to ensure patient (and employee) safety and to maintain trial integrity in ongoing, nonpandemic-related clinical trials, and capture pandemic-induced trial adjustments in focused amendments so that meaningful conclusions can be achieved when reporting results. 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Brussels: European Medicines Agency Points to consider on implications of coronavirus disease (COVID-19) on methodological aspects of ongoing clinical trials Medicines and Healthcare products Regulatory Agency. Managing clinical trials during coronavirus (COVID-19) COVID-19: guidance on clinical trials for institutions, HRECs, researchers and sponsors. Canberra: DoH Data-Integrity-and-Compliance-With-Current-Good-Manufacturing-Practice-Guidance-for-Industry