logging in or signing up petersen w nile Natalia Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 81 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: October 23, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript The Movement of West Nile Virus in North America: The Movement of West Nile Virus in North America UC Berkeley October 1, 2003 Photo of Cx. quinquefasciatus courtesy of Dr. Stephen Higgs, UTMB/GalvestonOrder of Topics: Order of Topics What is it? What is different now? How did it get here? How it is spreading? How big is the problem? What will happen next? How do we prevent it? West Nile Virus: Background: West Nile Virus: Background RNA virus Family Flaviviridae, Genus Flavivirus Member Japanese encephalitis serocomplex Closely related to SLE virus Isolation in 1937, West Nile district of Uganda Slide4: West Nile Virus: Approximate Geographic Range Before 1999West Nile Virus Before and After Mid-1990s: West Nile Virus Before and After Mid-1990s Before Mild self-limited febrile illness Central nervous system involvement rare Periodic outbreaks After Outbreaks associated with severe CNS illness Some outbreaks associated with avian mortality First recognition in North America (New York City) in 1999 West Nile Outbreaks: West Nile Outbreaks Israel 1941, 1951-1954, 1957, 1980, 2000 France 1962, 2000 South Africa 1974 Romania 1996 Italy 1998 Russia 1999 United States 1999-2003Slide7: Arrival in North AmericaSlide8: Madagascar Uganda 1937 Central African Republic 2 Egypt 1951 France 1962 South Africa 1974 NE United States Israel 98/99/2000 India Kunjin Romania 1996 Italy 1998 Volgograd 1999 1 LINEAGE Clade Eg 101 U.S./Israel Europe/Russia India Kunjin Phylogenetic Tree of West Nile Viruses Israel 2000An exotic arbovirus in NYC was surprising and unexpected: Should it have been?: An exotic arbovirus in NYC was surprising and unexpected: Should it have been?International Animal Importations Into New York August 1998 – July 1999 N = 2,873,144: International Animal Importations Into New York August 1998 – July 1999 N = 2,873,144 none 1 – 6000 6001 - 20000 20001 - 50000 50001 - 350000 350001 - AnimalsTop Ten Countries of Origin Passengers arriving into NY Airports July 1998 – June 1999 N = 4,850,090: Top Ten Countries of Origin Passengers arriving into NY Airports July 1998 – June 1999 N = 4,850,090Slide12: West Nile Virus Transmission Cycle Mosquito vector Incidental infections Bird reservoir hosts Incidental infections West Nile Virus West Nile VirusWest Nile Virus Ecology in North America, as of Fall 2003: West Nile Virus Ecology in North America, as of Fall 2003 43 mosquito species 170 native and captive avian species Mortality varies greatly by species Very high viremias in some species Bird-to-bird transmission documented Virus in feces and oral swabs Oral infection possible 18 other species (e.g., cats, dogs, squirrels, chipmunks, harbor seal, alligator, bats, reindeer) WNV Surveillance: WNV Surveillance Dead birds (especially crows) Human surveillance Mosquitoes Horse surveillance Live captive sentinels (e.g. chickens) Live wild birds Zoo animals States and Counties Reporting WNV Activity, United States, 1999-2003*: Reported to ArboNET as of 09/03/2003 States and Counties Reporting WNV Activity, United States, 1999-2003* ** Plus D.C.Reported WNV Disease Cases in Humans, United States, 1999-2003*: Reported WNV Disease Cases in Humans, United States, 1999-2003* * Reported as of 09/30/2003 ** Plus D.C.Clinical Epidemiology: Clinical Epidemiology Incubation period 2-14 days May be longer in immunosuppressed Approximately 20% mild febrile illness <1% severe neurological disease Meningitis, encephalitis, AFP Advanced age primary risk factor for encephalitis AFP patients may be younger Immunosuppressive drugs and hematological malignancies risk factors Approximate 10% mortality Long-term morbidity common Slide27: ~80% Asymptomatic ~20% “West Nile Fever” <1% CNS disease WNV Human Infection “Iceberg” in 2002 284 fatalities ~ 3300 severe disease ~400,000 asymptomatic ~100,000 mild illnessHuman WNV Illnesses (n=4156), by Month of Symptom Onset, 2002: Human WNV Illnesses (n=4156), by Month of Symptom Onset, 2002 1st Case May 19 Last Case Dec 19Slide29: Human WNV Meningoencephalitis Incidence, by Age Group, United States, 2002 * States with human casesSlide30: Fatality Rate among Persons with WNV Meningoencephalitis, by Age Group, United States, 2002Slide31: Human WNV Disease Cases, by Age Group and Clinical Category, United States, 2003* * Reported as of 09/03/2003Novel Modes of West Nile Virus Transmission, 2002: Novel Modes of West Nile Virus Transmission, 2002 Transplanted organs One donor to four recipients Transfused blood 23 confirmed cases in 2002, many more likely WNV screening began in July Breast milk One case, infant asymptomatic Transplacental transmission One case, severe outcome to infant Percutaneous, occupational exposure St. Louis Encephalitis: St. Louis Encephalitis Related Japanese encephalitis serocomplex flavivirus Endemic in the Americas Similar maintenance vectors Birds are main hosts Causes human epidemics Is SLE a model for the future behavior of WNV?Slide34: Reported and Estimated Number of St. Louis Encephalitis Cases, U.S., 1932- Sept 12, 2003Slide35: Reported Number of West Nile Meningoencephalitis Cases, U.S., 1932- Sep 30, 2003Slide36: DC WNME 2002* Reported Incidence in Humans: SLE 1975 vs. WNME 2002 * Reported as of 11/01/2002West Nile Virus Future in the United States: West Nile Virus Future in the United States Worrisome for several reasons Prolonged transmission season Wide geographic range Many potential amplifying avian hosts High viremias in birds Many potential mosquito vectors Many potential human-biting mosquito species Persistent infections in areas over 5 years Urban / suburban / rural transmissionSlide38: JOIN THE “SWAT TEAM” AGAINST WEST NILE VIRUSPrevention: Prevention Repellants DEET (up to 50% concentration); 10% in children Permethrin on clothing and fabrics Reduce mosquito breeding sites Long sleeves and pants Stay indoors when mosquitoes are biting (dawn and dusk) Bug zappers, sonic devices, CO2 devices (mosquito magnet): no proven efficacySlide41: Habitat elimination Larviciding Adulticiding You do not have the permission to view this presentation. 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petersen w nile Natalia Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 81 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: October 23, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript The Movement of West Nile Virus in North America: The Movement of West Nile Virus in North America UC Berkeley October 1, 2003 Photo of Cx. quinquefasciatus courtesy of Dr. Stephen Higgs, UTMB/GalvestonOrder of Topics: Order of Topics What is it? What is different now? How did it get here? How it is spreading? How big is the problem? What will happen next? How do we prevent it? West Nile Virus: Background: West Nile Virus: Background RNA virus Family Flaviviridae, Genus Flavivirus Member Japanese encephalitis serocomplex Closely related to SLE virus Isolation in 1937, West Nile district of Uganda Slide4: West Nile Virus: Approximate Geographic Range Before 1999West Nile Virus Before and After Mid-1990s: West Nile Virus Before and After Mid-1990s Before Mild self-limited febrile illness Central nervous system involvement rare Periodic outbreaks After Outbreaks associated with severe CNS illness Some outbreaks associated with avian mortality First recognition in North America (New York City) in 1999 West Nile Outbreaks: West Nile Outbreaks Israel 1941, 1951-1954, 1957, 1980, 2000 France 1962, 2000 South Africa 1974 Romania 1996 Italy 1998 Russia 1999 United States 1999-2003Slide7: Arrival in North AmericaSlide8: Madagascar Uganda 1937 Central African Republic 2 Egypt 1951 France 1962 South Africa 1974 NE United States Israel 98/99/2000 India Kunjin Romania 1996 Italy 1998 Volgograd 1999 1 LINEAGE Clade Eg 101 U.S./Israel Europe/Russia India Kunjin Phylogenetic Tree of West Nile Viruses Israel 2000An exotic arbovirus in NYC was surprising and unexpected: Should it have been?: An exotic arbovirus in NYC was surprising and unexpected: Should it have been?International Animal Importations Into New York August 1998 – July 1999 N = 2,873,144: International Animal Importations Into New York August 1998 – July 1999 N = 2,873,144 none 1 – 6000 6001 - 20000 20001 - 50000 50001 - 350000 350001 - AnimalsTop Ten Countries of Origin Passengers arriving into NY Airports July 1998 – June 1999 N = 4,850,090: Top Ten Countries of Origin Passengers arriving into NY Airports July 1998 – June 1999 N = 4,850,090Slide12: West Nile Virus Transmission Cycle Mosquito vector Incidental infections Bird reservoir hosts Incidental infections West Nile Virus West Nile VirusWest Nile Virus Ecology in North America, as of Fall 2003: West Nile Virus Ecology in North America, as of Fall 2003 43 mosquito species 170 native and captive avian species Mortality varies greatly by species Very high viremias in some species Bird-to-bird transmission documented Virus in feces and oral swabs Oral infection possible 18 other species (e.g., cats, dogs, squirrels, chipmunks, harbor seal, alligator, bats, reindeer) WNV Surveillance: WNV Surveillance Dead birds (especially crows) Human surveillance Mosquitoes Horse surveillance Live captive sentinels (e.g. chickens) Live wild birds Zoo animals States and Counties Reporting WNV Activity, United States, 1999-2003*: Reported to ArboNET as of 09/03/2003 States and Counties Reporting WNV Activity, United States, 1999-2003* ** Plus D.C.Reported WNV Disease Cases in Humans, United States, 1999-2003*: Reported WNV Disease Cases in Humans, United States, 1999-2003* * Reported as of 09/30/2003 ** Plus D.C.Clinical Epidemiology: Clinical Epidemiology Incubation period 2-14 days May be longer in immunosuppressed Approximately 20% mild febrile illness <1% severe neurological disease Meningitis, encephalitis, AFP Advanced age primary risk factor for encephalitis AFP patients may be younger Immunosuppressive drugs and hematological malignancies risk factors Approximate 10% mortality Long-term morbidity common Slide27: ~80% Asymptomatic ~20% “West Nile Fever” <1% CNS disease WNV Human Infection “Iceberg” in 2002 284 fatalities ~ 3300 severe disease ~400,000 asymptomatic ~100,000 mild illnessHuman WNV Illnesses (n=4156), by Month of Symptom Onset, 2002: Human WNV Illnesses (n=4156), by Month of Symptom Onset, 2002 1st Case May 19 Last Case Dec 19Slide29: Human WNV Meningoencephalitis Incidence, by Age Group, United States, 2002 * States with human casesSlide30: Fatality Rate among Persons with WNV Meningoencephalitis, by Age Group, United States, 2002Slide31: Human WNV Disease Cases, by Age Group and Clinical Category, United States, 2003* * Reported as of 09/03/2003Novel Modes of West Nile Virus Transmission, 2002: Novel Modes of West Nile Virus Transmission, 2002 Transplanted organs One donor to four recipients Transfused blood 23 confirmed cases in 2002, many more likely WNV screening began in July Breast milk One case, infant asymptomatic Transplacental transmission One case, severe outcome to infant Percutaneous, occupational exposure St. Louis Encephalitis: St. Louis Encephalitis Related Japanese encephalitis serocomplex flavivirus Endemic in the Americas Similar maintenance vectors Birds are main hosts Causes human epidemics Is SLE a model for the future behavior of WNV?Slide34: Reported and Estimated Number of St. Louis Encephalitis Cases, U.S., 1932- Sept 12, 2003Slide35: Reported Number of West Nile Meningoencephalitis Cases, U.S., 1932- Sep 30, 2003Slide36: DC WNME 2002* Reported Incidence in Humans: SLE 1975 vs. WNME 2002 * Reported as of 11/01/2002West Nile Virus Future in the United States: West Nile Virus Future in the United States Worrisome for several reasons Prolonged transmission season Wide geographic range Many potential amplifying avian hosts High viremias in birds Many potential mosquito vectors Many potential human-biting mosquito species Persistent infections in areas over 5 years Urban / suburban / rural transmissionSlide38: JOIN THE “SWAT TEAM” AGAINST WEST NILE VIRUSPrevention: Prevention Repellants DEET (up to 50% concentration); 10% in children Permethrin on clothing and fabrics Reduce mosquito breeding sites Long sleeves and pants Stay indoors when mosquitoes are biting (dawn and dusk) Bug zappers, sonic devices, CO2 devices (mosquito magnet): no proven efficacySlide41: Habitat elimination Larviciding Adulticiding