Charles Whittaker, Hayley A Thompson, Lantharita Charoenpong, Alison Rodger, Ambar Qavi, Sandra Valderrama-Beltrán, Djayanti Sari, Bimandra A. Djafaara, Teresia Njoki Kimani, Nuno R. Faria, Panuwat Promsin, Anthony C. Gordon, Anupop Jitmuang, Nukool Keurueangkul, Pratthana Srisangthong, Ester Cerdeira Sabino, Zulma Cucunuba, Maurício Lacerda Nogueira, Andrei C. Sposito, Thundon Ngamprasertchai, Rima Mustafa, Rujipas Sirijatuphat, Luis Carlos-Triana, Timothy B. Hallett, Raph L. Hamers, Gustavo Lopardo, Peter Winskill, Sorawat Sangkaew, Cássia Fernanda Estofolete, Oliver J Watson, Diana M. Gibb, Methee Chayakulkeeree, Andrew N. Phillips, Zarir Udwadia, Mauricio W. Perroud, Graham S Cooke, David A Forero-Peña, Vera Irawany, Adhiratha Boonyasiri, Ng’ang’a Irene Hannah Njeri, Anna S. Levin, Julio Croda, Shevanthi Nayagam, Nasikarn Angkasekwinai, Carlos Alvarez-Moreno, Azra C. Ghani, Patrick G T Walker, Arran Hamlet, Margarita Lampo, Maria Eugenia-Grillet, Duncan Chanda, Esteban Ortiz-Prado, Silva Figueiredo-Costa, Medical Research Council (MRC), NIHR, Medical Research Council-São Paulo Research Foundation (FAPESP), and Wellcome Trust
BackgroundThe unprecedented public health impact of the COVID-19 pandemic has motivated a rapid search for potential therapeutics, with some key successes. However, the potential impact of different treatments, and consequently research and procurement priorities, have not been clear.Methods and FindingsWe develop a mathematical model of SARS-CoV-2 transmission, COVID-19 disease and clinical care to explore the potential public-health impact of a range of different potential therapeutics, under a range of different scenarios varying: i) healthcare capacity, ii) epidemic trajectories; and iii) drug efficacy in the absence of supportive care. In each case, the outcome of interest was the number of COVID-19 deaths averted in scenarios with the therapeutic compared to scenarios without. We find the impact of drugs like dexamethasone (which are delivered to the most critically-ill in hospital and whose therapeutic benefit is expected to depend on the availability of supportive care such as oxygen and mechanical ventilation) is likely to be limited in settings where healthcare capacity is lowest or where uncontrolled epidemics result in hospitals being overwhelmed. As such, it may avert 22% of deaths in high-income countries but only 8% in low-income countries (assuming R=1.35). Therapeutics for different patient populations (those not in hospital, early in the course of infection) and types of benefit (reducing disease severity or infectiousness, preventing hospitalisation) could have much greater benefits, particularly in resource-poor settings facing large epidemics.ConclusionsThere is a global asymmetry in who is likely to benefit from advances in the treatment of COVID-19 to date, which have been focussed on hospitalised-patients and predicated on an assumption of adequate access to supportive care. Therapeutics that can feasibly be delivered to those earlier in the course of infection that reduce the need for healthcare or reduce infectiousness could have significant impact, and research into their efficacy and means of delivery should be a priority.