1. West Nile Virus �Surveillance and Epidemiology�United States and Tropical Americas J. Erin Staples, MD, PhD
Arboviral Diseases Branch
Division of Vector-Borne Infectious Diseases
Centers for Disease Control and Prevention
Fort Collins, CO
2. Overview Surveillance
ArboNET
Changes over time
Epidemiology
Incidence and location of WNV in U.S.
Demographics
Modes of transmission
WNV in Tropical Americas
Conclusions
Future Direction
Ongoing assessments
Areas for further investigation
3. West Nile Virus Surveillance Formation of ArboNET
4. Response to West Nile Virus in 1999 All lab testing done at CDC
Ecologic data collected by state and city health depts
Data kept in spreadsheets
Identified a need to enhance arboviral disease surveillance on a national level
5. Electronic surveillance system developed by CDC in response to WNV introduction
Unique system collecting both human and non-human data
Dynamic system which can be adapted
6. Objectives Monitor incidence as well as geographic and temporal spread of WNV and other arboviruses
Disseminate information to public health officials, government officials, and the public
Promotes prevention and control
Stimulates research
Evaluate the use of funds and need for additional resources
7. Ecologic data
Veterinary cases (e.g., horses)
Dead birds
Mosquitoes
Sentinel (e.g., chicken, horses)
Human data
Disease cases (e.g. neuroinvasive, fever)
Presumptive viremic donors (PVDs) Arboviral Surveillance
8. Adaptation of ArboNET and�Arboviral Surveillance
9. Adaptation of ArboNET and�Arboviral Surveillance
10. Adaptation of ArboNET and�Arboviral Surveillance
11. Adaptation of ArboNET and�Arboviral Surveillance
12. Adaptation of ArboNET and�Arboviral Surveillance
13. Adaptation of ArboNET and�Arboviral Surveillance
14. Changes in WNV Laboratory testing WNV testing initially performed at CDC then transferred to state health depts
Commercial assays licensed and used by increasing numbers of commercial and public health labs
Less control over confirmation and QA/QC of WNV testing
15. Dissemination of Data Weekly updates posted online and EpiX
Weekly updates of USGS maps with number of cases by state and county
Regular MMWR updates
Annual MMWR summary
Peer-reviewed journal articles
17. Percent of all U.S. counties reporting non-human WNV surveillance data to ArboNET by type and year, 2002-2007
18. Numbers of dead birds and mosquitoes tested among counties reporting these data every year, 2002-2007
19. West Nile Virus Epidemiology United States
21. Number of states and counties reporting WNV activity per year, U.S., 1999-2008
22. Counties reporting WNV activity in humans and non-human species, U.S., 2002-2007
23. Non-human Epidemiology United States
24. Culex species
Cx. quinquefasciatus
Cx. pipiens
Cx. tarsalis
Cx. restuans
Cx. salinarius
Aedes species
Ae. albopictus
Ae. vexans
25. Equine WNV Disease Cases Reported,�U.S., 1999-2008
26. Human Epidemiology United States
27. Reported WNV Human Disease Cases �U.S., 1999-2008
28. Number WNV Human Disease Cases by Clinical Syndrome, U.S., 1999-2008
29. Estimated Number of WNV Infections and Fever Cases, U.S., 1999-2008 Diagnoses and reporting of WNV fever varies by year and location
WNND most reliable indicator of WNV disease activity in humans
Based on serosurveys
140 WNV infections per 1 WNND case
28 WNV fever cases per 1 WNND case
30. Incidence of WNND by Year, U.S., 1999-2008
31. Average Annual Incidence of WNND,�by County, U.S., 2004-2007
32. Percent of WNND Cases by Month of Onset, U.S., 1999-2007
33. Demographic and Clinical Information WNV Human Disease Cases
United States
34. Average Annual Incidence of WNND Cases by Sex and Race, U.S., 1999-2007
35. Average Annual Incidence of WNND �by Age Group, U.S., 1999-2007
36. Cumulative Incidence of WNND cases by Age Group and Sex, U.S., 1999-2007
37. Incidence of WNND for Children and Adults, by year, U.S., 1999-2007
38. WNND Clinical Syndrome by Age Cohort,�U.S., 1999-2007
39. WNND Severity and Outcome by Age Cohort,�U.S., 1999-2007
40. Transmission of WNV Without Mosquitoes As more cases were identified, we started to detect cases being transmitted without mosq, which lead to addition of other variable in ArboNET
For example, in 2002, blood transfusion was identified as a mechanism of transmission for WNV infection.As more cases were identified, we started to detect cases being transmitted without mosq, which lead to addition of other variable in ArboNET
For example, in 2002, blood transfusion was identified as a mechanism of transmission for WNV infection.
41. WNV Transmission via Blood Transfusions 23 transfusion-associated WNV infections identified in 2002
Beginning 2003, all blood donations screened using NAT on either pooled or individual samples
PVDs reported to state health departments which report cases to ArboNET
… so all blood donations are screened for WNV.… so all blood donations are screened for WNV.
42. Each year hundreds of WNV PVDs are identified as shows in this slide. Overall, the number of PVDs detected each year parallels the number of WNND cases as shown by the relatively stable ratio of PVDs to WNND cases overtime. Each year hundreds of WNV PVDs are identified as shows in this slide. Overall, the number of PVDs detected each year parallels the number of WNND cases as shown by the relatively stable ratio of PVDs to WNND cases overtime.
43. WNV Transfusion-associated Disease 32 transfusion-associated WNV infections reported in literature
Last documented cases in 2006
CDC investigates multiple cases of possible WNV transfusion-associated disease annually
Predominantly immunocompromised individuals
Unable to substantiate due to lack of retention samples from the original blood unit
44. WNV Transmission by �Solid Organ Transplantation Cases of WNV infection from organ transplantation first recognized in 2002
Seven cases of transplant-associated WNV infections documented in the literature
4 cases in 2002, 3 cases in 2005
CDC investigates multiple cases of possible WNV transplant-associated disease annually
Most recent case from LA in September 2008
No current guidelines for routine screening of organ donors
45. Other Modes of Transmission Documented in utero transmission of WNV
One cases with definitive evidence and three with supportive evidence
Breast-feeding associated WNV case
46. Number of Neuroinvasive Disease Cases for by Arboviral Disease, U.S., 1999-2007
47. Non-human and Human Epidemiology Tropical Americas
48. West Nile Virus in Tropical Americas
49. Conclusions - 1 ArboNET developed in response to WNV introduction
Non-human activity has helped define the geographic location and spread of WNV
WNV human disease may have reached endemic level in the U.S.
WNND affects all age groups; causing more deaths and encephalitis in individuals > 50 years
50. Conclusions - 2 WNV has become the most common cause of arboviral neuroinvasive disease in the U.S.
WNV activity has also been detected at a lower level in Tropical Americas
51. Future Plans
52. Ongoing Assessments Evaluation of ArboNET and arboviral surveillance
Re-evaluation of WNV/Arbovirus case definitions
Exploration of the ability of non-human WNV data to predict human WNV disease
Determination of risk factors for severe WNV disease
Capturing of extended clinical information
Economic analysis of WNV vaccine
53. Areas for Further Investigation Assess differences in WNV disease transmission between high and low risk areas
Investigate difference in the spread and disease prevalence between U.S./Canada and Latin America/Europe
Explore ability of PVDs to predict human WNND
Develop guidelines for screening of organ donors for WNV
Evaluate the development and use of WNV vaccine for humans
54. Jennifer Lehman
Nicole Lindsey
Marc Fischer
Kristen Janusz
Nick Komar
Emily Zielinski-Gutierrez
Robert Lanciotti
John Roehrig
