Table 3. Selective illustration of a diversity of recent epidemiological applications in humans, domestic animals, and wildlife for improved detection, prevention, and control on a global basis.
| Example | Citations |
|---|---|
| Informatics for policy making on human prophylaxis recommendations at a global level | 98 |
| Predictive modeling of potential spatial spread in a canine rabies-free continent | 99 |
| Annual animal rabies laboratory-based surveillance summary for North America | 74 |
| Emergency department syndrome-based surveillance | 100 |
| Meta-analysis of animal bite statistics in Iran | 92 |
| Using ecological insights to overcome barriers for improved canine vaccination | 101 |
| Geographic information system use for wildlife rabies outbreak response | 102 |
| Health economics comparison of canine rabies control demonstration sites in Africa and Asia | 103 |
| Public health investigation of mass human exposure events from bats in the USA | 104 |
| Cohort assessment of the risk of rabies in biting Haitian dogs | 105 |
| Retrospective, multi-hospital analysis of the relative adequacy of rabies immunoglobulin administration to patients | 106 |
| Prospective, spatiotemporal study of human exposure risk factors in Ethiopia | 107 |
| Cross-sectional household survey on dog populations, bite incidence, and rabies knowledge in an African community at risk |
108 |
| Case series of rare human rabies survivors in India | 109 |
| Human case report, after substantial patient contact with bats in the home, but without prophylaxis, demonstrating the need for continued education |
110 |