Publication date: Nov 01, 2024
The COVID-19 pandemic has underscored the beneficial impact of vaccines. It also highlighted the need for future investments to expedite an equitable vaccine distribution. The 100 Days Mission aims to develop and make available a new vaccine against a future pathogen with pandemic potential within 100 days of that pathogen threat being recognised. We assessed the value of this mission by estimating the impact that it could have had on the COVID-19 pandemic. Using a previously published model of SARS-CoV-2 transmission dynamics fitted to excess mortality during the COVID-19 pandemic, we projected scenarios for three different investment strategies: rapid development and manufacture of a vaccine, increasing manufacturing capacity to eliminate supply constraints, and strengthening health systems to enable faster vaccine roll-outs and global equity. Each scenario was compared against the observed COVID-19 pandemic to estimate the public health and health-economic impacts of each scenario. If countries implemented non-pharmaceutical interventions (NPIs) as they did historically, the 100 Days Mission could have averted an estimated 8.33 million deaths (95% credible interval [CrI] 7.70-8.68) globally, mostly in lower-middle income countries. This corresponds to a monetary saving of US$14.35 trillion (95% CrI 12.96-17.87) based on the value of statistical life-years saved. Investment in manufacturing and health systems further increases deaths averted to 11.01 million (95% CrI 10.60-11.49). Under an alternative scenario whereby NPIs are lifted earlier on the basis of vaccine coverage, the 100 Days Mission alone could have reduced restrictions by 12 600 days (95% CrI 12 300-13 100) globally while still averting 5.76 million deaths (95% CrI 4.91-6.81). Our findings show the value of the 100 Days Mission and how these can be amplified through improvements in manufacturing and health systems equity. However, these investments must be enhanced by prioritising a more equitable global vaccine distribution. Schmidt Science Fellowship in partnership with the Rhodes Trust, WHO, UK Medical Research Council, Coalition for Epidemic Preparedness Innovations.
Concepts | Keywords |
---|---|
Future | COVID-19 |
Mathematical | COVID-19 Vaccines |
Vaccine | COVID-19 Vaccines |
Global Health | |
Humans | |
Models, Theoretical | |
Pandemics | |
SARS-CoV-2 | |
Vaccine Development |
Semantics
Type | Source | Name |
---|---|---|
disease | MESH | COVID-19 |
disease | IDO | pathogen |