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3. Novel Focus of Sin Nombre Virus in Peromyscus eremicus Mice, Death Valley National Park, California, USA

Author

Burns, Joseph E., Metzger, Marco E., Messenger, Sharon, Fritz, Curtis L., Vilcins, Inger-Marie E., Enge, Barryett, Bronson, Lawrence R., Kramer, Vicki L., and Hu, Renjie

Subjects
Infection -- Health aspects, Antibodies -- Health aspects, Zoonoses -- Health aspects, National parks -- Health aspects, Health
Abstract

Hantaviruses constitute a worldwide group of predominantly rodentborne zoonotic pathogens, some of which have emerged as distinctive human health hazards. In North America, Sin Nombre virus (SNV) is the most [...]

Published
2018
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5. Epidemic versus endemic West Nile virus dead bird surveillance in California: Changes in sensitivity and focus.

Author

Foss, Leslie, Feiszli, Tina, Kramer, Vicki L., Reisen, William K., and Padgett, Kerry

Subjects
WEST Nile virus, EPIDEMICS, BIRD food, ENVIRONMENTAL indicators
Abstract

Since 2003, the California West Nile virus (WNV) dead bird surveillance program (DBSP) has monitored publicly reported dead birds for WNV surveillance and response. In the current paper, we compared DBSP data from early epidemic years (2004–2006) with recent endemic years (2018–2020), with a focus on specimen collection criteria, county report incidence, bird species selection, WNV prevalence in dead birds, and utility of the DBSP as an early environmental indicator of WNV. Although fewer agencies collected dead birds in recent years, most vector control agencies with consistent WNV activity continued to use dead birds as a surveillance tool, with streamlined operations enhancing efficiency. The number of dead bird reports was approximately ten times greater during 2004–2006 compared to 2018–2020, with reports from the Central Valley and portions of Southern California decreasing substantially in recent years; reports from the San Francisco Bay Area decreased less dramatically. Seven of ten counties with high numbers of dead bird reports were also high human WNV case burden areas. Dead corvid, sparrow, and quail reports decreased the most compared to other bird species reports. West Nile virus positive dead birds were the most frequent first indicators of WNV activity by county in 2004–2006, followed by positive mosquitoes; in contrast, during 2018–2020 mosquitoes were the most frequent first indicators followed by dead birds, and initial environmental WNV detections occurred later in the season during 2018–2020. Evidence for WNV impacts on avian populations and susceptibility are discussed. Although patterns of dead bird reports and WNV prevalence in tested dead birds have changed, dead birds have endured as a useful element within our multi-faceted WNV surveillance program. [ABSTRACT FROM AUTHOR]

Published
2023
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6. A forty-year review of Rocky Mountain spotted fever cases in California shows clinical and epidemiologic changes.

Author

Kjemtrup, Anne M., Padgett, Kerry, Paddock, Christopher D., Messenger, Sharon, Hacker, Jill K., Feiszli, Tina, Melgar, Michael, Metzger, Marco E., Hu, Renjie, and Kramer, Vicki L.

Subjects
BROWN dog tick, LYME disease, FEVER, DERMACENTOR, TICK-borne diseases, RHIPICEPHALUS
Abstract

Rocky Mountain spotted fever (RMSF) is a life-threatening tick-borne disease documented in North, Central, and South America. In California, RMSF is rare; nonetheless, recent fatal cases highlight ecological cycles of the two genera of ticks, Dermacentor and Rhipicephalus, known to transmit the disease. These ticks occur in completely different habitats (sylvatic and peridomestic, respectively) resulting in different exposure risks for humans. This study summarizes the demographic, exposure, and clinical aspects associated with the last 40 years of reported RMSF cases to the California Department of Public Health (CDPH). Seventy-eight RMSF cases with onsets from 1980 to 2019 were reviewed. The incidence of RMSF has risen in the last 20 years from 0.04 cases per million to 0.07 cases per million (a two-fold increase in reports), though the percentage of cases that were confirmed dropped significantly from 72% to 25% of all reported cases. Notably, Hispanic/Latino populations saw the greatest rise in incidence. Cases of RMSF in California result from autochthonous and out-of-state exposures. During the last 20 years, more cases reported exposure in Southern California or Mexico than in the previous 20 years. The driver of these epidemiologic changes is likely the establishment and expansion of Rhipicephalus sanguineus sensu lato ticks in Southern California and on-going outbreaks of RMSF in northern Mexico. Analysis of available electronically reported clinical data from 2011 to 2019 showed that 57% of reported cases presented with serious illness requiring hospitalization with a 7% mortality. The difficulty in recognizing RMSF is due to a non-specific clinical presentation; however, querying patients on the potential of tick exposure in both sylvatic and peridomestic environments may facilitate appropriate testing and treatment. Author summary: Our analysis of the last 40 years of reported Rocky Mountain spotted fever (RMSF) in California included cases that met specific inclusion criteria which highlighted new information. First, there are two distinct epidemiologic patterns which are illustrated with detailed descriptions of two fatal cases. The typical sylvatic cycle involves transmission by Dermacentor spp. ticks in grassland or woodland habitats. A peridomestic cycle exists that involves transmission by the brown dog tick, Rh. sanguineus, often in association with travel to hyper-endemic areas such as certain parts of northern Mexico or resulting from the increasing presence of Rh. sanguineus in Southern California. Second, the typical clinical picture of fever, headache, chills, and rash emphasized the non-specific nature of this life-threatening disease. Inquiries regarding recent tick exposure in both the sylvatic and peridomestic environments can help in recognition of the disease. Lastly, while RMSF remains rare in California, incidence is increasing, notably in the Hispanic/Latino population. Public health messaging about RMSF in California must focus on both sylvatic and peridomestic settings, particularly in Southern California, and should be culturally appropriate. [ABSTRACT FROM AUTHOR]

Published
2022
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7. Bartonella quintana in body lice and head lice from homeless persons, San Francisco, California, USA

Author

Bonilla, Denise L., Kabeya, Hidenori, Henn, Jennifer, Kramer, Vicki L., and Kosoy, Michael Y.

Subjects
Infection -- Health aspects, Public health -- Health aspects, Homeless persons -- Health aspects, Lice -- Health aspects
Abstract

The human body louse and human head louse are generally recognized as 2 subspecies of Pediculus humanus (P. h. humanus and P. h. capitis, respectively) that have distinct ecologic preferences [...]

Published
2009

8. Epidemiologic and environmental characterization of the Re-emergence of St. Louis Encephalitis Virus in California, 2015–2020.

Author

Danforth, Mary E., Snyder, Robert E., Feiszli, Tina, Bullick, Teal, Messenger, Sharon, Hanson, Carl, Padgett, Kerry, Coffey, Lark L., Barker, Christopher M., Reisen, William K., and Kramer, Vicki L.

Subjects
ENCEPHALITIS viruses, ALPHAVIRUSES, ALPHAVIRUS diseases, WEST Nile virus, VIRUS diseases, DEATH rate
Abstract

St. Louis encephalitis virus (SLEV) is an endemic flavivirus in the western and southeastern United States, including California. From 1938 to 2003, the virus was detected annually in California, but after West Nile virus (WNV) arrived in 2003, SLEV was not detected again until it re-emerged in Riverside County in 2015. The re-emerging virus in California and other areas of the western US is SLEV genotype III, which previously had been detected only in Argentina, suggesting a South American origin. This study describes SLEV activity in California since its re-emergence in 2015 and compares it to WNV activity during the same period. From 2015 to 2020, SLEV was detected in 1,650 mosquito pools and 26 sentinel chickens, whereas WNV was detected concurrently in 18,108 mosquito pools and 1,542 sentinel chickens from the same samples. There were 24 reported human infections of SLEV in 10 California counties, including two fatalities (case fatality rate: 8%), compared to 2,469 reported human infections of WNV from 43 California counties, with 143 fatalities (case fatality rate: 6%). From 2015 through 2020, SLEV was detected in 17 (29%) of California's 58 counties, while WNV was detected in 54 (93%). Although mosquitoes and sentinel chickens have been tested routinely for arboviruses in California for over fifty years, surveillance has not been uniform throughout the state. Of note, since 2005 there has been a steady decline in the use of sentinel chickens among vector control agencies, potentially contributing to gaps in SLEV surveillance. The incidence of SLEV disease in California may have been underestimated because human surveillance for SLEV relied on an environmental detection to trigger SLEV patient screening and mosquito surveillance effort is spatially variable. In addition, human diagnostic testing usually relies on changes in host antibodies and SLEV infection can be indistinguishable from infection with other flaviviruses such as WNV, which is more prevalent. Author summary: St. Louis encephalitis virus is a mosquito-borne virus that can cause human disease and is found in California, where it was detected every year from 1938 to 2003. However, after West Nile virus arrived in 2003, St. Louis encephalitis virus was not detected again until 2015, when it re-emerged in Riverside County. From 2015 through 2020, St. Louis encephalitis virus has been detected in mosquito pools and sentinel chicken sera samples in 16 counties and a total of 24 human disease cases have been reported. However, during that same time-period, West Nile virus has been detected in 10 times as many mosquito pools and 60 times as many chicken sera samples across 58 counties and over 2,400 human disease cases have been reported. Although mosquitoes are tested routinely for both viruses, surveillance is not uniform throughout the state, and there has been a steady decline in the use of sentinel chickens. Since St. Louis encephalitis virus patient screening is dependent upon environmental detection, California may be underestimating the incidence of human disease due to this virus. [ABSTRACT FROM AUTHOR]

Published
2022
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9. Evaluation of the effectiveness of the california mosquito-borne virus surveillance & response plan, 2009–2018.

Author

Danforth, Mary E., Snyder, Robert E., Lonstrup, Emma T. N., Barker, Christopher M., and Kramer, Vicki L.

Subjects
WEST Nile fever, HIV seroconversion, WEST Nile virus, CULEX pipiens, VECTOR control
Abstract

Local vector control and public health agencies in California use the California Mosquito-Borne Virus Surveillance and Response Plan to monitor and evaluate West Nile virus (WNV) activity and guide responses to reduce the burden of WNV disease. All available data from environmental surveillance, such as the abundance and WNV infection rates in Culex tarsalis and the Culex pipiens complex mosquitoes, the numbers of dead birds, seroconversions in sentinel chickens, and ambient air temperatures, are fed into a formula to estimate the risk level and associated risk of human infections. In many other areas of the US, the vector index, based only on vector mosquito abundance and infection rates, is used by vector control programs to estimate the risk of human WNV transmission. We built models to determine the association between risk level and the number of reported symptomatic human disease cases with onset in the following three weeks to identify the essential components of the risk level and to compare California's risk estimates to vector index. Risk level calculations based on Cx. tarsalis and Cx. pipiens complex levels were significantly associated with increased human risk, particularly when accounting for vector control area and population, and were better predictors than using vector index. Including all potential environmental components created an effective tool to estimate the risk of WNV transmission to humans in California. Author summary: The California Mosquito-Borne Virus Surveillance and Response Plan was designed to monitor and evaluate West Nile virus activity in the state and guide vector control and public health responses to reduce the burden of West Nile virus disease. It uses a formula to estimate the risk of human infections based on available environmental surveillance data: the abundance and infection rates in Culex tarsalis and the Culex pipiens complex mosquitoes, the numbers of dead birds, seroconversions in sentinel chickens, and/or ambient air temperatures. We evaluated the effectiveness of this risk level system and compared it to the vector index, a simpler risk estimate based only on mosquito abundance and infection rates, used by many vector control agencies inside the U.S. We found that that the California risk levels were significantly associated with increased reported human disease incidence, particularly when all potential environmental components were included, and better fit the data than vector index. [ABSTRACT FROM AUTHOR]

Published
2022
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10. Characterizing Areas with Increased Burden of West Nile Virus Disease in California, 2009–2018.

Author

Danforth, Mary E., Fischer, Marc, Snyder, Robert E., Lindsey, Nicole P., Martin, Stacey W., and Kramer, Vicki L.

Subjects
WEST Nile fever, WEST Nile virus, ZIP codes, MOSQUITO control, ZIKA virus infections
Abstract

West Nile virus (WNV) is a mosquito-borne flavivirus that can cause severe neurological disease in humans, for which there is no treatment or vaccine. From 2009 to 2018, California has reported more human disease cases than any other state in the United States. We sought to identify smaller geographic areas within the 10 California counties with the highest number of WNV cases that accounted for disproportionately large numbers of human cases from 2009 to 2018. Eleven areas, consisting of groups of high-burden ZIP codes, were identified in nine counties within southern California and California's Central Valley. Despite containing only 2% of California's area and 17% of the state's population, these high-burden ZIP codes accounted for 44% of WNV cases reported and had a mean annual incidence that was 2.4 times the annual state incidence. Focusing mosquito control and public education efforts in these areas would lower WNV disease burden. [ABSTRACT FROM AUTHOR]

Published
2021
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11. West Nile virus in California, 2003–2018: A persistent threat.

Author

Snyder, Robert E., Feiszli, Tina, Foss, Leslie, Messenger, Sharon, Fang, Ying, Barker, Christopher M., Reisen, William K., Vugia, Duc J., Padgett, Kerry A., and Kramer, Vicki L.

Subjects
WEST Nile virus, ALPHAVIRUSES, BIRDS, MOSQUITO control, VECTOR control, PREVENTIVE medicine
Abstract

The California Arbovirus Surveillance Program was initiated over 50 years ago to track endemic encephalitides and was enhanced in 2000 to include West Nile virus (WNV) infections in humans, mosquitoes, sentinel chickens, dead birds and horses. This comprehensive, statewide program is a function of strong partnerships among the California Department of Public Health (CDPH), the University of California, and local vector control and public health agencies. This manuscript summarizes WNV surveillance data in California since WNV was first detected in 2003 in southern California. From 2003 through 2018, 6,909 human cases of WNV disease, inclusive of 326 deaths, were reported to CDPH, as well as 730 asymptomatic WNV infections identified during screening of blood and organ donors. Of these, 4,073 (59.0%) were reported as West Nile neuroinvasive disease. California's WNV disease burden comprised 15% of all cases that were reported to the U.S. Centers for Disease Control and Prevention during this time, more than any other state. Additionally, 1,299 equine WNV cases were identified, along with detections of WNV in 23,322 dead birds, 31,695 mosquito pools, and 7,340 sentinel chickens. Annual enzootic detection of WNV typically preceded detection in humans and prompted enhanced intervention to reduce the risk of WNV transmission. Peak WNV activity occurred from July through October in the Central Valley and southern California. Less than five percent of WNV activity occurred in other regions of the state or outside of this time. WNV continues to be a major threat to public and wild avian health in California, particularly in Southern California and the Central Valley during summer and early fall months. Local and state public health partners must continue statewide human and mosquito surveillance and facilitate effective mosquito control and bite prevention measures. Author summary: West Nile virus (WNV) was first detected in the United States in 1999, and subsequently spread throughout the country. It is now the most commonly reported disease that is transmitted by mosquitoes in the United States. California has reported approximately 15% of all human WNV infections since the virus was first reported in the state in 2003. The California Department of Public Health works with partners throughout the state to conduct robust surveillance of WNV infections in mosquitoes, dead birds, and sentinel chickens, using these data to direct vector control activity and reduce the risk of WNV transmission to people. This article summarizes sixteen years of human, mosquito, chicken, equine, and dead wild bird surveillance for WNV in California, the most comprehensive description of WNV surveillance data to date. We found that WNV enzootic and human activity varied geographically and in intensity from year-to-year. Almost 95% of all WNV activity in California occurred in the Central Valley and southern California between April and November. [ABSTRACT FROM AUTHOR]

Published
2020
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12. Genetic Analysis of Invasive Aedes albopictus Populations in Los Angeles County, California and Its Potential Public Health Impact

Author

Zhong, Daibin, Lo, Eugenia, Hu, Renjie, Metzger, Marco E, Cummings, Robert, Bonizzoni, Mariangela, Fujioka, Kenn K, Sorvillo, Teresa E, Kluh, Susanne, Healy, Sean P, Fredregill, Chris, Kramer, Vicki L, Chen, Xiaoguang, Yan, Guiyun, and Moreira, Luciano A

Subjects
Multiple Introductions, North-America, Culicidae, Diptera, Establishment, Dna Polymorphism, Mosquitos, Medicine and Health Sciences, Life Sciences, United-States, Molecular-Identification, Statistical Tests
Published
2013

13. Correction: A forty-year review of Rocky Mountain spotted fever cases in California shows clinical and epidemiologic changes.

Author

Kjemtrup, Anne M., Padgett, Kerry, Paddock, Christopher D., Messenger, Sharon, Hacker, Jill K., Feiszli, Tina, Melgar, Michael, Metzger, Marco E., Hu, Renjie, and Kramer, Vicki L.

Subjects
FEVER, BABESIOSIS
Abstract

It says, "We used a strict RMSF case definition to specifically describe RMSF epidemiology in California, and did exclude three confirmed SFRG cases that presented with eschars as the principal clinical presentation since clinically those would be more typical of Pacific Coast Tick fever caused by Rickettsia 364D [40] and excluded 33 probable cases with titers <1:164 that did not increase or had IgM only testing." There is an error in the second sentence of the third paragraph of the Discussion section. [Extracted from the article]

Published
2023
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14. Comparison of the Efficiency and Cost of West Nile Virus Surveillance Methods in California.

Author

Healy, Jessica M., Reisen, William K., Kramer, Vicki L., Fischer, Marc, Lindsey, Nicole P., Nasci, Roger S., Macedo, Paula A., White, Gregory, Takahashi, Richard, Khang, La, and Barker, Christopher M.

Subjects
WEST Nile fever transmission, PUBLIC health surveillance, WEST Nile fever prevention, MOSQUITO vectors, PREVENTIVE medicine, EPIDEMIOLOGY, ECONOMICS
Abstract

Surveillance systems for West Nile virus (WNV) combine several methods to determine the location and timing of viral amplification. The value of each surveillance method must be measured against its efficiency and costs to optimize integrated vector management and suppress WNV transmission to the human population. Here we extend previous comparisons of WNV surveillance methods by equitably comparing the most common methods after standardization on the basis of spatial sampling density and costs, and by estimating optimal levels of sampling effort for mosquito traps and sentinel chicken flocks. In general, testing for evidence of viral RNA in mosquitoes and public-reported dead birds resulted in detection of WNV approximately 2-5 weeks earlier than serological monitoring of sentinel chickens at equal spatial sampling density. For a fixed cost, testing of dead birds reported by the public was found to be the most cost effective of the methods, yielding the highest number of positive results per $1000. Increased spatial density of mosquito trapping was associated with more precise estimates of WNV infection prevalence in mosquitoes. Our findings also suggested that the most common chicken flock size of 10 birds could be reduced to six to seven without substantial reductions in timeliness or sensitivity. We conclude that a surveillance system that uses the testing of dead birds reported by the public complemented by strategically timed mosquito and chicken sampling as agency resources allow would detect viral activity efficiently in terms of effort and costs, so long as susceptible bird species that experience a high mortality rate from infection with WNV, such as corvids, are present in the area. [ABSTRACT FROM AUTHOR]

Published
2015
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15. Human babesiosis and ehrlichioses - emerging tick-borne diseases

Author

Vugia, Duc J. and Kramer, Vicki L.

Subjects
Tick-borne diseases -- Prevention -- Care and treatment, Babesiosis -- Care and treatment -- Prevention, Ehrlichiosis -- Care and treatment -- Prevention, Health, Care and treatment, Prevention
Abstract

Lyme disease was the emerging tick-borne infectious disease on the West Coast in the 1980s. Now, however, the diseases babesiosis and ehrlichiosis must also be considered in patients who are [...]

Published
1996

16. Genetic Analysis of Invasive Aedes albopictus Populations in Los Angeles County, California and Its Potential Public Health Impact.

Author

Zhong, Daibin, Lo, Eugenia, Hu, Renjie, Metzger, Marco E., Cummings, Robert, Bonizzoni, Mariangela, Fujioka, Kenn K., Sorvillo, Teresa E., Kluh, Susanne, Healy, Sean P., Fredregill, Chris, Kramer, Vicki L., Chen, Xiaoguang, and Yan, Guiyun

Subjects
GENETIC research, AEDES albopictus, PUBLIC health, POPULATION biology, ARBOVIRUSES, NEMATODES
Abstract

The Asian tiger mosquito, Aedes albopictus, is an anthropophilic aggressive daytime-biting nuisance and an efficient vector of certain arboviruses and filarial nematodes. Over the last 30 years, this species has spread rapidly through human travel and commerce from its native tropical forests of Asia to every continent except Antarctica. In 2011, a population of Asian tiger mosquito (Aedes albopictus) was discovered in Los Angeles (LA) County, California. To determine the probable origin of this invasive species, the genetic structure of the population was compared against 11 populations from the United States and abroad, as well as preserved specimens from a 2001 introduction into California using the mitochondrial cytochrome c oxidase 1 (CO1) gene. A total of 66 haplotypes were detected among samples and were divided into three main groups. Aedes albopictus collected in 2001 and 2011 from LA County were genetically related and similar to those from Asia but distinct from those collected in the eastern and southeastern United States. In view of the high genetic similarities between the 2001 and 2011 LA samples, it is possible that the 2011 population represents in part the descendants of the 2001 introduction. There remains an imperative need for improved surveillance and control strategies for this species. [ABSTRACT FROM AUTHOR]

Published
2013
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17. West Nile Virus Infection in Tree Squirrels (Rodentia: Sciuridae) in California, 2004-2005.

Author

Padgett, Kerry A., Reisen, William K., Kahl-Purcell, Nicole, Fang, Ying, Cahoon-Young, Barbara, Carney, Ryan, Anderson, Nancy, Zucca, Lynda, Woods, Leslie, Husted, Stan, and Kramer, Vicki L.

Abstract

The article focuses on a study which investigated the West Nile virus (WNV) infection in tree squirrels species (Rodentia, Sciuridae) in California in 2004 and 2005. The squirrels were necropsied at the California Animal Health and Food Safety Laboratories (CAHFS) in a biosafety cabinet. During the study period, the squirrels that were tested positive for WNV include the California fox squirrel (Sciurus niger), western gray squirrel (Sciurus griseus) and eastern gray squirrel (Sciurus carolinesis). Study authors concluded that the three squirrel species are susceptible to WNV, thus they are considered relevant to WNV surveillance in the state.

Published
2008

29. Minimizing mosquito larval habitat within roadside stormwater treatment best management practices in southern California through incremental improvements to structure.

Author

Metzger, Marco E., Harbison, Justin E., Burns, Joseph E., Kramer, Vicki L., Newton, John H., Drews, John, and Hu, Renjie

Subjects
*BEST management practices (Pollution prevention), *MOSQUITO larvae, *WATER quality, *PUBLIC health
Abstract

A five-year study was conducted in Orange County, California to document the presence of standing water and the presence or absence of larval mosquitoes within 23 stormwater treatment Best Management Practices (BMPs) installed along State Route 73 by the California Department of Transportation. Findings were used to guide incremental improvements to BMP design and function with the aim of reducing the occurrence of standing water that persisted more than 96 h after precipitation. During the first year of monitoring, a number of structural and non-structural factors were identified as causes for standing water within BMPs suitable for mosquitoes. Uneven grades, inlet design and construction, and novel structural features were most frequently responsible for standing water, often exacerbated by sediment and debris accumulations and periodic or perennial non-stormwater flows. Subsequent modifications to BMPs eliminated or reduced the size of persistent standing water pools. The study demonstrated that mosquito larval habitat can be mitigated in BMPs designed to remain dry between precipitation events by collecting field data that identifies where post-construction structural and managerial changes are needed to eliminate or reduce unintended sources of standing water. [ABSTRACT FROM AUTHOR]

Published
2018
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30. Detection and Establishment of Aedes notoscriptus (Diptera: Culicidae) Mosquitoes in Southern California, United States.

Author

Metzger ME, Wekesa JW, Kluh S, Fujioka KK, Saviskas R, Arugay A, McConnell N, Nguyen K, Krueger L, Hacker GM, Hu R, and Kramer VL

Subjects
Animals, California, Dirofilaria immitis physiology, Dirofilariasis transmission, Female, Male, Aedes, Animal Distribution, Introduced Species, Mosquito Vectors
Abstract

Aedes notoscriptus (Skuse), the Australian backyard mosquito, is a pestiferous daytime-biting species native to Australia and the surrounding southwestern Pacific region. It is suspected to play a role in the transmission of several arboviruses and is considered a competent vector of dog heartworm, Dirofilaria immitis (Leidy). This highly adaptable mosquito thrives in natural and artificial water-holding containers in both forested and urbanized areas, from tropical to temperate climates, and has benefitted from a close association with humans, increasing in abundance within its native range. It invaded and successfully established in New Zealand as well as in previously unoccupied temperate and arid regions of Australia. Ae. notoscriptus was discovered in Los Angeles County, CA, in 2014, marking the first time this species had been found outside the southwestern Pacific region. By the end of 2019, immature and adult mosquitoes had been collected from 364 unique locations within 44 cities spanning three southern California counties. The discovery, establishment, and rapid spread of this species in urban areas may signal the global movement and advent of a new invasive container-inhabiting species. The biting nuisance, public health, and veterinary health implications associated with the invasion of southern California by this mosquito are discussed., (© The Author(s) 2021. Published by Oxford University Press on behalf of Entomological Society of America.)

Published
2022
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31. Characterizing Areas with Increased Burden of West Nile Virus Disease in California, 2009-2018.

Author

Danforth ME, Fischer M, Snyder RE, Lindsey NP, Martin SW, and Kramer VL

Subjects
Animals, California epidemiology, Incidence, United States, Vaccines, West Nile Fever epidemiology, West Nile Fever veterinary, West Nile virus
Abstract

West Nile virus (WNV) is a mosquito-borne flavivirus that can cause severe neurological disease in humans, for which there is no treatment or vaccine. From 2009 to 2018, California has reported more human disease cases than any other state in the United States. We sought to identify smaller geographic areas within the 10 California counties with the highest number of WNV cases that accounted for disproportionately large numbers of human cases from 2009 to 2018. Eleven areas, consisting of groups of high-burden ZIP codes, were identified in nine counties within southern California and California's Central Valley. Despite containing only 2% of California's area and 17% of the state's population, these high-burden ZIP codes accounted for 44% of WNV cases reported and had a mean annual incidence that was 2.4 times the annual state incidence. Focusing mosquito control and public education efforts in these areas would lower WNV disease burden.

Published
2021
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32. Modeling Climate Suitability of the Western Blacklegged Tick in California.

Author

Eisen RJ, Feirer S, Padgett KA, Hahn MB, Monaghan AJ, Kramer VL, Lane RS, and Kelly M

Subjects
Animals, California, Animal Distribution, Climate, Ixodes, Models, Biological
Abstract

Ixodes pacificus Cooley & Kohls (Acari: Ixodidae), the primary vector of Lyme disease spirochetes to humans in the far-western United States, is broadly distributed across Pacific Coast states, but its distribution is not uniform within this large, ecologically diverse region. To identify areas of suitable habitat, we assembled records of locations throughout California where two or more I. pacificus were collected from vegetation from 1980 to 2014. We then employed ensemble species distribution modeling to identify suitable climatic conditions for the tick and restricted the results to land cover classes where these ticks are typically encountered (i.e., forest, grass, scrub-shrub, riparian). Cold-season temperature and rainfall are particularly important abiotic drivers of suitability, explaining between 50 and 99% of the spatial variability across California among models. The likelihood of an area being classified as suitable increases steadily with increasing temperatures >0°C during the coldest quarter of the year, and further increases when precipitation amounts range from 400 to 800 mm during the coldest quarter, indicating that areas in California with relatively warm and wet winters typically are most suitable for I. pacificus. Other consistent predictors of suitability include increasing autumn humidity, temperatures in the warmest month between 23 and 33°C, and low-temperature variability throughout the year. The resultant climatic suitability maps indicate that coastal California, especially the northern coast, and the western Sierra Nevada foothills have the highest probability of I. pacificus presence.

Published
2018
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33. Detection and Establishment of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Mosquitoes in California, 2011-2015.

Author

Metzger ME, Hardstone Yoshimizu M, Padgett KA, Hu R, and Kramer VL

Subjects
Aedes growth & development, Animals, California, Female, Introduced Species, Larva growth & development, Larva physiology, Male, Population Density, Aedes physiology, Animal Distribution, Mosquito Control
Abstract

In 2011, a thriving population of Aedes albopictus (Skuse), the Asian tiger mosquito, was discovered within three cities in Los Angeles County over an estimated 52-km2 urban area. Two years later in 2013, Aedes aegypti (L.), the yellow fever mosquito, was detected within several urban areas of Madera, Fresno, and San Mateo counties. State and local vector control agencies responded with an aggressive effort to eradicate or interrupt the spread of these two invasive mosquitoes; however, known populations continued to expand outward and new infestations were identified at an accelerated pace in central and southern California. By the end of 2015, one or both species had been detected within the jurisdictional boundaries of 85 cities and census-designated places in 12 counties. Herein we report on the discovery and widespread establishment of Ae. aegypti and Ae. albopictus in urban areas of coastal, central, and southern California between 2011 and 2015 and discuss the subsequent rapid changes to the activities and priorities of vector control agencies in response to this unprecedented invasion., (© The Authors 2017. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published
2017
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34. Comparison of the efficiency and cost of West Nile virus surveillance methods in California.

Author

Healy JM, Reisen WK, Kramer VL, Fischer M, Lindsey NP, Nasci RS, Macedo PA, White G, Takahashi R, Khang L, and Barker CM

Subjects
Animals, California epidemiology, Costs and Cost Analysis, Female, Humans, Poultry Diseases virology, Prevalence, RNA, Viral analysis, Sentinel Surveillance, West Nile Fever virology, West Nile virus genetics, Chickens virology, Culicidae virology, Insect Vectors virology, Poultry Diseases epidemiology, West Nile Fever epidemiology, West Nile virus isolation & purification
Abstract

Surveillance systems for West Nile virus (WNV) combine several methods to determine the location and timing of viral amplification. The value of each surveillance method must be measured against its efficiency and costs to optimize integrated vector management and suppress WNV transmission to the human population. Here we extend previous comparisons of WNV surveillance methods by equitably comparing the most common methods after standardization on the basis of spatial sampling density and costs, and by estimating optimal levels of sampling effort for mosquito traps and sentinel chicken flocks. In general, testing for evidence of viral RNA in mosquitoes and public-reported dead birds resulted in detection of WNV approximately 2-5 weeks earlier than serological monitoring of sentinel chickens at equal spatial sampling density. For a fixed cost, testing of dead birds reported by the public was found to be the most cost effective of the methods, yielding the highest number of positive results per $1000. Increased spatial density of mosquito trapping was associated with more precise estimates of WNV infection prevalence in mosquitoes. Our findings also suggested that the most common chicken flock size of 10 birds could be reduced to six to seven without substantial reductions in timeliness or sensitivity. We conclude that a surveillance system that uses the testing of dead birds reported by the public complemented by strategically timed mosquito and chicken sampling as agency resources allow would detect viral activity efficiently in terms of effort and costs, so long as susceptible bird species that experience a high mortality rate from infection with WNV, such as corvids, are present in the area.

Published
2015
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35. Genetic analysis of invasive Aedes albopictus populations in Los Angeles County, California and its potential public health impact.

Author

Zhong D, Lo E, Hu R, Metzger ME, Cummings R, Bonizzoni M, Fujioka KK, Sorvillo TE, Kluh S, Healy SP, Fredregill C, Kramer VL, Chen X, and Yan G

Subjects
Aedes classification, Animals, California, DNA, Mitochondrial genetics, Genetic Variation, Genetics, Population, Haplotypes, Humans, Insect Vectors classification, Molecular Sequence Data, Mosquito Control, Phylogeny, Phylogeography, Population Dynamics, Public Health, Aedes genetics, Insect Vectors genetics, Introduced Species
Abstract

The Asian tiger mosquito, Aedes albopictus, is an anthropophilic aggressive daytime-biting nuisance and an efficient vector of certain arboviruses and filarial nematodes. Over the last 30 years, this species has spread rapidly through human travel and commerce from its native tropical forests of Asia to every continent except Antarctica. In 2011, a population of Asian tiger mosquito (Aedes albopictus) was discovered in Los Angeles (LA) County, California. To determine the probable origin of this invasive species, the genetic structure of the population was compared against 11 populations from the United States and abroad, as well as preserved specimens from a 2001 introduction into California using the mitochondrial cytochrome c oxidase 1 (CO1) gene. A total of 66 haplotypes were detected among samples and were divided into three main groups. Aedes albopictus collected in 2001 and 2011 from LA County were genetically related and similar to those from Asia but distinct from those collected in the eastern and southeastern United States. In view of the high genetic similarities between the 2001 and 2011 LA samples, it is possible that the 2011 population represents in part the descendants of the 2001 introduction. There remains an imperative need for improved surveillance and control strategies for this species.

Published
2013
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36. West Nile virus infection in tree squirrels (Rodentia: Sciuridae) in California, 2004-2005.

Author

Padgett KA, Reisen WK, Kahl-Purcell N, Fang Y, Cahoon-Young B, Carney R, Anderson N, Zucca L, Woods L, Husted S, and Kramer VL

Subjects
Animals, Antibodies, Viral blood, California epidemiology, Disease Reservoirs veterinary, Kidney virology, Oropharynx virology, Population Surveillance, Prevalence, Reverse Transcriptase Polymerase Chain Reaction veterinary, Time Factors, West Nile Fever epidemiology, Rodent Diseases epidemiology, Sciuridae virology, West Nile Fever veterinary, West Nile virus pathogenicity
Abstract

West Nile virus (WNV) transmission generally involves a mosquito vector and an avian reservoir host, with mammals as incidental hosts. Although most mammalian WNV infections cause low or no morbidity or mortality, tree squirrels are susceptible to WNV-associated neurologic disease with infection prevalence comparable to that in dead birds. Positive species included fox squirrel (Sciurus niger), western gray squirrel (S. griseus), and eastern gray squirrel (S. carolinensis). Kidney tissue (dissected and swabbed), and oropharyngeal (oral) swab samples from tree squirrels submitted by California vector control and rehabilitation agencies were tested by reverse transcription-polymerase chain reaction; cycle threshold values were similar for all three samples, ranging from 21.9 to 26.5. Kidney tissue was more sensitive than oral swabs for detecting WNV in squirrels. Three of 36 live neurologic tree squirrels had viremia approximately 5 log(10) plaque-forming units/mL or greater, similar to WNV-infected birds. Tree squirrels are useful in WNV surveillance and provide localized evidence of WNV transmission to mammals.

Published
2007

37. Seroprevalence of Bartonella infection in American free-ranging and captive pumas (Felis concolor) and bobcats (Lynx rufus).

Author

Chomel BB, Kikuchi Y, Martenson JS, Roelke-Parker ME, Chang CC, Kasten RW, Foley JE, Laudre J, Murphy K, Swift PK, Kramer VL, and O'brien SJ

Subjects
Animals, Animals, Wild, Animals, Zoo, Antibodies, Bacterial blood, Bartonella immunology, Bartonella Infections epidemiology, Bartonella Infections microbiology, Carnivora, Female, Fluorescent Antibody Technique, Indirect veterinary, Male, Seroepidemiologic Studies, United States epidemiology, Bartonella isolation & purification, Bartonella Infections veterinary
Abstract

Bartonella henselae is the main agent of cat scratch disease in humans and domestic cats are the main reservoir of this bacterium. We conducted a serosurvey to investigate the role of American wild felids as a potential reservoir of Bartonella species. A total of 479 samples (439 serum samples and 40 Nobuto strips) collected between 1984 and 1999 from pumas (Felis concolor) and 91 samples (58 serum samples and 33 Nobuto strips) collected from bobcats (Lynx rufus) in North America, Central America and South America were screened for B. henselae antibodies. The overall prevalence of B. henselae antibodies was respectively 19.4% in pumas and 23.1% in bobcats, with regional variations. In the USA, pumas from the southwestern states were more likely to be seropositive for B. henselae (prevalence ratio (PR) = 2.82, 95% confidence interval (CI) = 1.55, 5.11) than pumas from the Northwest and Mountain states. Similarly, adults were more likely to be B. henselae seropositive than juveniles and kittens (PR = 1.77, 95% CI = 1.07, 2.93). Adult pumas were more likely to have higher B. henselae antibody titers than juveniles and kittens (p = 0.026). B. henselae antibody prevalence was 22.4% (19/85) in bobcats from the USA and 33.3% (2/6) in the Mexican bobcats. In the USA, antibody prevalence varied depending on the geographical origin of the bobcats. In California, the highest prevalence was in bobcats from the coastal range (37.5%). These results suggest a potential role of wild felids in the epidemiological cycle of Bartonella henselae or closely related Bartonella species.

Published
2004
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38. Introduction and potential establishment of Aedes albopictus in California in 2001.

Author

Linthicum KJ, Kramer VL, Madon MB, and Fujioka K

Subjects
Animals, California, Demography, Mosquito Control, Aedes
Abstract

Aedes albopictus was discovered in Los Angeles, California, in June 2001 in a maritime cargo container from China containing a shipment of a commercial plant product known as "Lucky Bamboo" (Dracaena spp.). To keep the plants alive during the ocean transit, they were shipped in 5-8 cm of water, providing an excellent habitat for Ae. albopictus. Mosquito infestations were subsequently detected at 15 nursery distributors of Dracaena in 2 northern and 4 southern California counties. The distribution of the Ae. albopictus infestations was limited to the vicinity of those nursery distributors with documented infestations. Infestations persisted for more than 5 months near some of the nurseries, and eggs were found in ovitraps until mid-November 2001 up to 1,000 m from the original infestation sites. Overwintering Ae. albopictus populations were discovered in April, July, and August 2002 at original infestation sites in Chino, San Bernardino County, and Monterey Park and Rowland Heights, Los Angeles County, respectively. Specimens were found at some sites of overwintering populations until October 2002.

Published
2003

39. California state Mosquito-Borne Virus Surveillance and Response Plan: a retrospective evaluation using conditional simulations.

Author

Barker CM, Reisen WK, and Kramer VL

Subjects
Animals, California epidemiology, Chickens, Culicidae virology, Disease Outbreaks statistics & numerical data, Encephalitis, St. Louis prevention & control, Encephalitis, St. Louis transmission, Encephalomyelitis, Western Equine prevention & control, Encephalomyelitis, Western Equine transmission, Horse Diseases epidemiology, Horses, Humans, Insect Vectors virology, Models, Biological, Mosquito Control, Population Density, Poultry Diseases epidemiology, Rain, Retrospective Studies, Risk Assessment methods, Risk Factors, Seasons, Temperature, Culicidae physiology, Encephalitis, St. Louis epidemiology, Encephalomyelitis, Western Equine epidemiology, Insect Vectors physiology, Population Surveillance methods
Abstract

The California Mosquito-Borne Virus Surveillance and Response Plan recently was developed to provide a semi-quantitative means for assessing risk for western equine encephalomyelitis (WEE) or St. Louis encephalitis (SLE) viruses and to provide intervention guidelines for mosquito control and public health agencies during periods of heightened risk for human infection. West Nile virus recently has arrived in California, and the response plan also will provide a baseline for assessing the risk for human and equine infection with this virus. In the response plan, overall risk is calculated by averaging risk due to 1) environmental conditions, 2) adult mosquito vector abundance, 3) vector infection rates, 4) sentinel chicken seroconversion rates, 5) equine cases (for WEE), 6) human cases, and 7) the proximity of virus activity to populated areas. Overall risk is categorized into three levels: normal season, emergency planning, or epidemic conditions. We evaluated this response plan using historical data from years with no, enzootic, and epidemic activity of WEE and SLE in several areas of California to determine whether calculated risk levels approximated actual conditions. Multiple methods of risk calculation were considered for both viruses. Assessed risk based on cumulative temperature, rainfall, and runoff levels over the entire season provided more or equally accurate assessments than biweekly assessments based solely on the previous half-month. For WEE, during years with enzootic activity or early-season periods of years with WEE epidemic activity, combining horse and human cases as a single risk factor improved the model's ability to forecast pending WEE activity, but separating the two factors allowed a better indication of WEE activity during epidemics and periods with no activity. For SLE, assignment of higher risk to drier conditions as measured by rainfall and runoff yielded the most accurate representation of actual virus activity during all recent study periods.

Published
2003
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