key: cord-1001863-1gb8atxi authors: Grasela, Thaddeus H.; Price, David A.; Wagner, John A. title: COVID‐19 vaccines and treatments: When speed is necessary and not enough date: 2021-04-09 journal: Clin Transl Sci DOI: 10.1111/cts.13010 sha: 4906690c80285b9ad4f8bb887b807f432b1be6be doc_id: 1001863 cord_uid: 1gb8atxi nan The infectivity and severity of the severe acute respiratory syndrome-coronavirus 2 (SARS-CoV-2) pandemic (coronavirus disease 2019 ) has fostered the need for speed in the work to make progress against the virus. However, speed alone-without proper direction and control-can have dangerous, unintended consequences. This commentary describes ways COVID-19 has disrupted business as usual for industry and regulatory agencies. We highlight critical implications in global health and community engagement as well as opportunities to address long-standing challenges to accelerating biopharmaceutical innovation. Industry has demonstrated the ability to accelerate the research and development (R&D) life cycle, including the execution of clinical trials. As of January 2021, the World Health Organization (WHO) reports that there are 237 vaccine candidates from a broad range of technology platforms, 64 of which are in clinical development. 1 The urgency of the search for treatments and vaccines has intensified the level of collaboration across the biopharmaceutical, academic, and regulatory sectors. This collaboration has already yielded precompetitive efforts to standardize the methods and models for testing candidate vaccines, the coordination of clinical trials, standardization of end points, and achieved emergency use authorization (EUA) in the United States for two vaccines, with other candidates quickly following suit. 2 Although enhanced collaboration across the biopharmaceutical, academic, and regulatory sectors has catalyzed the development of new or repurposed treatments and vaccines, competition and lack of coordination has led to a plethora of similar clinical trials as well as vaccines. In particular, the duplication of effort has plagued COVID-19 efforts, especially clinical trials; with, for example, 343 reported clinical trials of hydroxychloroquine as of the end of November 2020. 3 Moreover, across a range of drugs, many of the trials have been too small or poorly designed to answer rigorous questions-with too few being blinded, randomized, controlled trials-and a large proportion of the completed trials have not reported on ClinicalTrials.gov or in the academic literature (1516 of 3754 completed trials, 40.4%). 4 The large number of vaccine candidates in clinical development is extraordinary, and although some of those multiple efforts are undoubtedly important to ensure success-and reflect an understandable urge to respond quickly to the pandemiccompetitive forces have probably driven this number too high, resulting in a potential waste of effort and resources. Industry's greater openness to a new speed and scope of data sharing is a promising sign of collaborative progress. The willingness to share diverse databases, including experimental The public has come to expect that the sense of urgency amongst scientists in R&D will manifest itself in faster regulatory decision making timelines and more rapid deployment of successful candidates; in turn creating new tensions-for example, around the dosing schedules of the approved vaccines. As the ongoing clinical trials of the vaccine candidates prove successful, sponsors have already begun to seek EUA through US, UK, or European authorities. Reviewing the safety and efficacy data and inspecting manufacturing facilities for good manufacturing practice compliance will entail an enormous global effort. What will the reviews performed under the emergency authorization procedure look like? Will the reviews be adequate to ensure confidence and trust in the outcome? A coordinated cohort of globally distributed, interdisciplinary teams, with representation from commercial, scientific, public, and regulatory interests, including a diverse range of expertise will be required to manage the influx of dossiers. The teams will be required to not only increase the speed, but also enhance the scope, agility, and utility of the question-based reviews, and to balance the inter-related strategic, technical, operational, and impact factors. Further, as we have seen with collaboration among researchers, collaboration among the global regulatory agencies will be critical and can build on the successful history of collaboration via the International Council on Harmonization. Effective collaboration will require sharing not only the final reviews, but also the work products and thinking behind the reviews. The combination of data, reviews, and work products could allow the teams to develop and consider systematically a range of best-case and worst-case scenarios from different perspectives and allow for timely exploration of mitigation strategies. There is longstanding recognition of the importance of enabling collaboration and reliance activities among regulators that has been heightened by the global impact of COVID-19. Regulatory sharing, specifically work products, including assessment reports and inspection reports, depends on industry permission, and where the industry will draw the line on asserting proprietary rights to confidentiality for the COVID-19 vaccine remains to be seen. Successful deployment of new vaccines for COVID-19 will depend not only on public acceptance of regulatory endorsements of the vaccine, but also on how the evidence for safety and efficacy is interrogated and transparently communicated to the global community. Equally critical is acceptance by the procurement, payors, legal, and insurance components of the community who will need to develop flexible and agile strategies for iterative payment and liability schemes that can adjust as greater assuredness regarding a vaccine benefit-to-risk profile is established. The question-based review for COVID-19 clinical trial data, while focused on efficacy and safety, must also consider the impact of externalities, such as societal, environmental, economic, and political factors on vaccine response and uptake. Vaccine candidate sponsors have made significant efforts to increase the diversity of subjects enrolled in clinical trials, but little data has been generated from subjects in low and middle income countries (LMICs). Cold chain requirements and logistical feasibility of deployment have already emerged as a potential differentiator in vaccine selection. Other issues, such as the impact of malnutrition, micronutrient deficiency, and diseases, such as HIV, malaria, and tuberculosis, on vaccine response remain to be discerned from future trials. 6 The potential for the global release of multiple versions of COVID-19 vaccines, including those based on novel technologies, both increases the scale of the risks and compresses the timeline to the potential emergence of those risks. How will differences in vaccine response, particularly across multiple versions of the vaccine, affect our ability to develop an effective long-term immunization strategy against the disease? These factors will increase the requirements for rigorous pharmacovigilance studies, particularly in LMICs, that not only monitor for safety concerns but also the extent and duration of immunity. 7 Unfortunately, the infrastructure for safety monitoring is poor to nonexistent in many LMICs, heightening the risk of never truly identifying if these products are indeed safe and effective in these populations. The front-line health and social workers are a high priority group for vaccination in order to interrupt the infection-transmission cycle. They are also the group who will be most likely amenable to participate fully in pharmacovigilance efforts and will play a vital role in broadly communicating and educating the public on the safety (or not) of the vaccines, including via word-of-mouth and social media. It has been nearly 25 years since Lewis Sheiner published his landmark paper on the learn and confirm paradigm in pharmaceutical drug development. 8 These ideas had | 3 COVID-19 VACCINES AND TREATMENTS: WHEN SPEED IS NECESSARY AND NOT ENOUGH a transformative effect on the practice of science and innovation in the biopharmaceutical industry and remain relevant today, pointing to critical next steps in our current moment of transition. See Table 1 for a summary of recommendations. It is imperative that we work to systematically accelerate and plan for incorporation of learning as well as maximize the diversity and utility of our knowledge. From a research program perspective, the rapidly evolving information and experience that emerges during a global health threat, such as the COVID-19 pandemic, requires a continual review of action plans. The prioritization of new candidates for development or selection of drugs for repurposing might be based, for example, on pharmacologic first principles, yet these may ultimately prove inadequate and misleading as an expanded sense of the determinants for effectiveness or safety emerges. Continually questioning the relevance and appropriateness of research plans by systematically considering emerging knowledge can help to reduce the risk of overlooked opportunities and misdirected time and resources. One promising way to support faster and sufficiently diverse and rigorous learning is to underpin the question-based review with explicit, interlacing conceptual schemes that formalize the knowledge, and identify gaps in the knowledge, from multiple perspectives. Systems pharmacology schemes for inflammation and its effects in target organs, including the lungs, brain, heart, and kidneys, can be interrogated and refined by incorporating emerging COVID-19-specific knowledge. These conceptual schemes provide a foundation for multidisciplinary dialogue, generate promising heuristics for artificial intelligence-based analyses, and may also serve as a basis for the development of probability models that incorporate exposure-response and prognostic data to predict outcomes in counterfactual scenarios. See Figure 1 for an illustration of an iterative process for accelerating learning and its application. Sharing in the work of critical knowledge creation while avoiding unnecessary and wasteful duplication of efforts does not have to end with the pandemic. A willingness of direct competitors to join forces by sharing proprietary information, R&D capabilities, and other resources can result in sustainable models for process improvement, data sharing, accelerated learning, and complementary drug development. Accelerate learning • Ensure coherence across strategic, technical, operational, and impact dimensions of innovation • Perform continued assessment of development plans to assess the impact of emerging knowledge • Performing multidisciplinary questionbased reviews paired with evolving conceptual schemes (including systems pharmacology) • Revisiting action plans to reflect emerging insights and gaps The COVID-19 pandemic has spawned a number of data platforms to capture emerging data, including ICODA, Vivli, IDDO, and ISARIC (see Table 1 ). These platforms along with funding initiatives to support innovative analyses play a crucial role in generating clinical and research insights beyond the primary outcomes of clinical trials. Precompetitive collaboration to address critical gaps in knowledge while avoiding unnecessary and wasteful duplication of efforts should be paramount. Centralized tabulation of funded research projects can serve as an important source to help both funders and researchers to prioritize resources to underfunded areas where there is greatest research need and facilitate further strategic collaboration. 9 From a wider societal perspective, the speed and urgency of the COVID-19 R&D effort is severely stressing the existing process of providing checks and balances to industry-regulatorglobal health interests. This new faster paradigm can only realistically be imagined for other serious and life-threatening diseases for which there are not adequate current therapies or preventatives, and, even so, requires diligent prioritization. As with the pandemic, this is more likely to be for exceptional cases when the community is willing to commit the needed excess human and financial resources, and when the community is willing to tolerate a greater risk of the unknown about the product (i.e., accept a less complete data base at the time of significant usage in the population outside the consented clinical trial setting). A sustainable approach to assigning such an accelerated status to new therapeutics, and perhaps building on the existing US Food and Drug Administration (FDA) Priority Review designation under the Prescription Drug User Act, will be required. This designation will require a globally relevant and multidisciplinary approach to developing an enhanced clinical utility index that can be used as a practical multi-attribute approach to awarding this distinction. 10 The global nature of the pandemic has disrupted business as usual and highlighted the inevitable changes occurring in industry, regulatory agencies, and diverse community stakeholders. This disruption offers the opportunity to gain a new perspective on what is possible as a global society with motivation and shift in mindset. In some cases, the shift marks a revisiting of familiar pathways with renewed interest in ensuring operational success. In other cases, the shifts will require recognizing and developing the latent advantages offered by new technologies to secure the inherent value. In all cases, the pandemic presents a generational opportunity to instantiate the lessons learned during this pandemic for the widest public good. Draft landscape and tracker of COVID-19 candidate vaccines NIH partners with 16 drug companies in hopes of accelerating Covid-19 treatments and vaccines. Stat. 2020 Global Coronavirus COVID-19 Clinical Trial Tracker Missing clinical trial data: the evidence gap in primary data for potential COVID-19 drugs Mapping the landscape of artificial intelligence applications against COVID-19 The world's wild and crazy vaccine ride is just starting COVID-19 vaccines: what's next? An interview with Margaret Hamburg Learning versus confirming in clinical drug development Baseline results of a living systematic review for COVID-19 funded research projects. Wellcome Open Research The clinical utility index as a practical multiattribute approach to drug development decisions The authors wish to acknowledge the review and excellent comments on early versions of this commentary by Murray Lumpkin at the Bill & Melinda Gates Foundation and Peter Honig at Pfizer. Recognition of global health threats and their implications emerge and evolve over time. Interdisciplinary collaborations identify and iteratively refine the salient conceptual schemes, with scientific and clinical expertise augmented by artificial intelligence (AI) tools. Emerging insights and knowledge gaps reframe and drive action plans, shape existing treatment paradigms, and establish need-based innovation pathways COVID-19 VACCINES AND TREATMENTS: WHEN SPEED IS NECESSARY AND NOT ENOUGH T.H.G. is an employee of Cognigen Corporation, J.A.W. is an employee of Cygnal Therapeutics, and D.A.P. is an employee of DebateGraph. As Editor-in-Chief of Clinical and Translational Science, John A. Wagner was not involved in the review or decision process for this paper.