Response strategies for COVID-19 epidemics in African settings : a mathematical modelling study
Date
2020-10-14
Journal Title
Journal ISSN
Volume Title
Publisher
BMC (part of Springer Nature)
Abstract
Background: The health impact of COVID-19 may differ in African settings as compared to countries in Europe or
China due to demographic, epidemiological, environmental and socio-economic factors. We evaluated strategies to
reduce SARS-CoV-2 burden in African countries, so as to support decisions that balance minimising mortality,
protecting health services and safeguarding livelihoods.
Methods: We used a Susceptible-Exposed-Infectious-Recovered mathematical model, stratified by age, to predict
the evolution of COVID-19 epidemics in three countries representing a range of age distributions in Africa (from
oldest to youngest average age: Mauritius, Nigeria and Niger), under various effectiveness assumptions for
combinations of different non-pharmaceutical interventions: self-isolation of symptomatic people, physical
distancing and ‘shielding’ (physical isolation) of the high-risk population. We adapted model parameters to better
represent uncertainty about what might be expected in African populations, in particular by shifting the distribution
of severity risk towards younger ages and increasing the case-fatality ratio. We also present sensitivity analyses for
key model parameters subject to uncertainty.
peaking at 2–4 months, if epidemics were unmitigated. Self-isolation while symptomatic had a maximum impact of
about 30% on reducing severe cases, while the impact of physical distancing varied widely depending on percent
contact reduction and R0. The effect of shielding high-risk people, e.g. by rehousing them in physical isolation, was
sensitive mainly to residual contact with low-risk people, and to a lesser extent to contact among shielded
individuals. Mitigation strategies incorporating self-isolation of symptomatic individuals, moderate physical
distancing and high uptake of shielding reduced predicted peak bed demand and mortality by around 50%.
Lockdowns delayed epidemics by about 3 months. Estimates were sensitive to differences in age-specific social
mixing patterns, as published in the literature, and assumptions on transmissibility, infectiousness of asymptomatic
cases and risk of severe disease or death by age.
Conclusions: In African settings, as elsewhere, current evidence suggests large COVID-19 epidemics are expected.
However, African countries have fewer means to suppress transmission and manage cases. We found that selfisolation
of symptomatic persons and general physical distancing are unlikely to avert very large epidemics, unless
distancing takes the form of stringent lockdown measures. However, both interventions help to mitigate the
epidemic. Shielding of high-risk individuals can reduce health service demand and, even more markedly, mortality if
it features high uptake and low contact of shielded and unshielded people, with no increase in contact among
shielded people. Strategies combining self-isolation, moderate physical distancing and shielding could achieve
substantial reductions in mortality in African countries. Temporary lockdowns, where socioeconomically acceptable,
can help gain crucial time for planning and expanding health service capacity.
Description
CITATION: Van Zandvoort, K., et al. 2020. Response strategies for COVID-19 epidemics in African settings : a mathematical modelling study. BMC Medicine, 18:324, doi:10.1186/s12916-020-01789-2.
The original publication is available at https://bmcmedicine.biomedcentral.com
The original publication is available at https://bmcmedicine.biomedcentral.com
Keywords
COVID-19 (Disease), Epidemiology -- Research, Epidemics -- Africa, Health services administration, Epidemiology -- Mathematical models, Disease outbreaks -- Control
Citation
Van Zandvoort, K., et al. 2020. Response strategies for COVID-19 epidemics in African settings : a mathematical modelling study. BMC Medicine, 18:324, doi:10.1186/s12916-020-01789-2