Author: Po Yang; Jun Qi; Shuhao Zhang; Gaoshan Bi; Xulong Wang; Yun Yang; Bin Sheng; Xuxin Mao
Title: Feasibility of Controlling COVID-19 Outbreaks in the UK by Rolling Interventions Document date: 2020_4_7
ID: b6r6j1ek_34
Snippet: We simulated that mitigation with low, moderate and high The results showed that mitigation strategies were able to delay the peak of COVID-19 breakouts but ineffective to reduce daily infectious populations. We estimated that the peak of daily infectious population was reduced to Above simulations appeared similar trends as findings, 4 taking mitigation intervention in the UK enabled reducing impacts of an epidemic by flattening the curve, reduc.....
Document: We simulated that mitigation with low, moderate and high The results showed that mitigation strategies were able to delay the peak of COVID-19 breakouts but ineffective to reduce daily infectious populations. We estimated that the peak of daily infectious population was reduced to Above simulations appeared similar trends as findings, 4 taking mitigation intervention in the UK enabled reducing impacts of an epidemic by flattening the curve, reducing peak incidence and overall death. While total infectious population may increase over a longer period, the final mortality ratio may be minimised at the end. But as similar as taking suppression, mitigation need to remain in place for as much of the epidemic period as possible.
Search related documents:
Co phrase search for related documents- curve flatten and infectious population: 1
- curve flatten and long period: 1, 2
- daily infectious population and epidemic period: 1
- daily infectious population and final mortality ratio: 1
- daily infectious population and infectious population: 1, 2, 3, 4, 5
- daily infectious population and mitigation intervention: 1
- daily infectious population peak and epidemic period: 1
- daily infectious population peak and final mortality ratio: 1
- daily infectious population peak and infectious population: 1
- daily infectious population peak and mitigation intervention: 1
- daily infectious population reduce and epidemic period: 1
- daily infectious population reduce and final mortality ratio: 1
- daily infectious population reduce and infectious population: 1
- daily infectious population reduce and mitigation intervention: 1
- epidemic period and final mortality ratio: 1
- epidemic period and infectious population: 1, 2, 3
- epidemic period and long period: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18
- epidemic reduce impact and long period: 1
- final mortality ratio and infectious population: 1
Co phrase search for related documents, hyperlinks ordered by date