key: cord-0915473-99rjqsh6
authors: nan
title: Global outbreak research: harmony not hegemony
date: 2020-06-02
journal: Lancet Infect Dis
DOI: 10.1016/s1473-3099(20)30440-0
sha: 0446e605baea66a66b6ef54ef01c6300f2bfde60
doc_id: 915473
cord_uid: 99rjqsh6

nan

To make clinical and biological observations within a time frame that is likely to benefit patients during disease out breaks, coordination of global research must match the speed of spread of novel pathogens. Time is short. Circumstances call for international collaboration to understand, treat, and prevent coronavirus disease 2019 (COVID-19). During previous infectious disease outbreaks, clinical research has often been established on an ad-hoc basis and done in silos, using different methodologies and designs. This approach limits opportunities to compare results, or to combine smaller studies to obtain answers quickly. Thus, perhaps it is self-evident that harmonisation of clinical investigation during outbreaks is desirable. In a meeting of the WHO clinical management research prioritisation group held in January, 2020, harmonised clinical characterisation research was identified as the first priority for COVID-19.

Harmonisation creates opportunities for individual investigators to compare results or collaborate, without applying burdens or obligations. In our experience, the quality and breadth of research is improved by collaborative development and peer review of shared protocols. For example, in the current outbreak, a clinician might design a study to identify risk factors for progression, co-infections, and mechanisms of critical illness. However, clinicians might overlook the need to obtain serum for research groups with the capability to make new assays for seroepidemiology, or peripheral blood mononuclear cells for monoclonal antibody therapeutics during this process. Wide collaboration leads to better, faster science.

Achieving global coordination is difficult enough at the best of times; during a crisis it might seem impossible. But with each new crisis, the same questions arise again and again, and so, the same designs can be used to tackle them. We believe that global harmonisation is possible, at least in the intermittently indispensable field of outbreak research. To achieve such a goal, harmonised investigation needs to be made easier than establishing isolated independent studies, must respect autonomy and sovereignty of investigators, and relinquish normal routes of academic recognition for this work.

To this end, in 2012, a single, standardised generic research protocol was created for clinical characterisation of any emerging infection (the International Severe Acute Respiratory and Emerging Infection Consortium [ISARIC]/WHO Clinical Characterisation Protocol [CCP]), which was the result of many years of international and cross-speciality consensus-building. 1 Since the fundamental research questions in a new outbreak are predictable, the protocol can be established and approved in so-called peacetime, maintained in a hibernating state, then rapidly implemented when required. Carefully designed, flexible biological sampling schedules are included in tiers according to local resources, modular additional studies for specific situations, and scalable case report forms. 1 These tools were released under an opensource licence-ie, anyone can download these materials and use, adapt, or distribute them. Clinical research can feel like it is 95% about filling in forms. We filled in some of the forms, so you don't have to.

In 2016, the ISARIC/WHO CCP was implemented in Brazil in response to the emergence of Zika virus and chikungunya virus in Latin America, facilitating studies of viral shedding and serology. 2 The CCP was also used for the establishment of cohort studies of critically ill patients with Middle East respiratory syndrome. 3 At present, the Uganda Virus Research Institute (Entebbe, Uganda) is using the protocol to study severe acute febrile illness and severe influenza. 4 The value of this approach is becoming apparent in the age of COVID-19. The original reports on clinical findings in COVID-19 used harmonised data collection. 5, 6 46 countries have registered to record clinical data using the ISARIC/WHO CCP Case Report Form and investigators in many countries are planning to use the CCP biological sampling protocol to coordinate studies of transmission, prognostication, pathogenesis, and diagnostics (appendix).

Understanding the genetic mechanisms underlying susceptibility 7 might directly advance our understanding of disease mechanisms 8 Operating clinical trials at global scale presents many additional challenges, but even in this domain, substantial progress has been made. Before the COVID-19 pandemic, the critical care community created a highly efficient, randomised, embedded multifactorial adaptive platform trial for communityacquired pneumonia (REMAP-CAP). This single trial was established in 13 countries with the capacity to test new hypotheses quickly. Perhaps most ambitious of all, WHO has developed a global platform-the SOLIDARITY trial 10 -for the evaluation of widely-available interventions to treat COVID-19.

Catastrophes, such as pandemics, drive innovation and lead to marked social change. Within the scientific research community, we believe that perceptions of academic excellence have long undervalued teamwork and collegiality. We hope our colleagues across the world will make use of these tools, either in collaboration or independently, to harmonise clinical research efforts and fulfil the duties of medical science to humanity in the shortest time possible.

Open source clinical science for emerging infections

Differential shedding and antibody kinetics of zika and chikungunya viruses

Critically ill patients with the middle east respiratory syndrome: A multicenter retrospective cohort study

Epidemiologic and spatiotemporal characterization of influenza and severe acute respiratory infection in Uganda

Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China

Clinical course and outcomes of critically ill patients with SARS-CoV-2 pneumonia in Wuhan, China: a single-centered, retrospective, observational study

The role of host genetic factors in respiratory tract infectious diseases: systematic review, meta-analyses and field synopsis

Treatable traits and therapeutic targets: goals for systems biology in infectious disease

Translational genomics. Targeting the host immune response to fight infection

Solidarity" clinical trial for COVID-19 treatments

We declare no competing interests.For more on REMAP-CAP see https://www.remapcap.org