Efficacy of Aerial Spraying of Mosquito Adulticide in Reducing Incidence of West Nile Virus, California, 2005

Carney, Ryan M.; Husted, Stan; Jean, Cynthia; Glaser, Carol; Kramer, Vicki L.

doi:10.3201/eid1405.071347

Cited by 79 publications

(49 citation statements)

References 22 publications

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“…However, one previous study that compared WNV disease incidence between treated and untreated areas during a substantial WNV disease outbreak in Sacramento County, California, showed that aerial mosquito adulticiding reduced human WNV disease cases. 12 Our findings support this conclusion and provide additional information because the California study evaluated the effect of spraying in areas where the primary WNV vectors are Culex pipiens and Culex tarsalis; our evaluation was conducted in counties where Culex quinquefasciatus is the main WNV vector. 8,13,14 Aerial spraying can treat large areas more rapidly than ground-based spraying, and using aircraft allows access to areas inaccessible by roads.…”

Section: Discussionsupporting

confidence: 77%

Effect of Aerial Insecticide Spraying on West Nile Virus Disease—North-Central Texas, 2012

Ruktanonchai

Stonecipher

Lindsey

et al. 2014

The American Society of Tropical Medicine and Hygiene

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Abstract. During 2012, four north-central Texas counties experienced high West Nile virus (WNV) disease incidence. Aerial insecticide spraying was conducted in two counties. To evaluate the effect of spraying on WNV disease, we calculated incidence rate ratios (IRRs) in treated and untreated areas by comparing incidence before and after spraying; for unsprayed areas, before and after periods were defined by using dates from a corresponding sprayed area. In treated areas, WNV neuroinvasive disease incidence before and after spraying was 7.31/100,000 persons and 0.28/100,000 persons, respectively; the IRR was 26.42 (95% confidence interval . In untreated areas, the before and after incidence was 4.80/100,000 persons and 0.45/100,000 persons, respectively; the IRR was 10.57 (95% CI: 6.11-18.28). The ratio of IRRs was 2.50 (95% CI: 0.98-6.35). Disease incidence decreased in both areas, but the relative change was greater in aerial-sprayed areas.

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Section: Discussionsupporting

confidence: 77%

Effect of Aerial Insecticide Spraying on West Nile Virus Disease—North-Central Texas, 2012

Ruktanonchai

Stonecipher

Lindsey

et al. 2014

The American Society of Tropical Medicine and Hygiene

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“…The forecasting of RVF activity in these regions of Africa could have been used to potentially enhance various preparedness activities such as by targeting both adult and immature stages of the most important mosquito vector species. Costs of mosquito control are significant but have been shown to be effective in suppressing arbovirus transmission, 15 potentially reduce human and animal morbidity and mortality, and diminish economic impacts. Theoretically, the use of sustained release methoprene or other immature mosquito larval control products would be more costly than post outbreak control measures but massive applications at the earliest indications of elevated rainfall and before flooding would decrease the quantity of RVFV introduced into the environment by killing the majority of the mosquito reservoir before they are able to transmit the virus to domestic animals, thus diminishing the magnitude of the outbreak and potentially prevent more than $60 million in trade losses alone and losses in human and animal lives.…”

Section: Discussionmentioning

confidence: 99%

Prediction, Assessment of the Rift Valley Fever Activity in East and Southern Africa 2006–2008 and Possible Vector Control Strategies

Anyamba¹,

Linthicum²,

Small³

et al. 2010

The American Journal of Tropical Medicine and Hygiene

157

210

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“…Lack of evidence for the efÞcacy of vector control interventions to result in a decrease in human cases of Lyme disease is in stark contrast to other important vector-borne diseases, malaria perhaps being the best example, where epidemiological outcomes are routinely determined for control interventions that target the vector. There are also such examples emerging for West Nile virus disease in the United States, where an intervention focusing on the vector was followed up by determination of not only entomological but also epidemiological outcomes (Carney et al 2008).…”

Section: What Are the Epidemiological (Lyme Disease Reduction) Outcommentioning

confidence: 99%

What Do We Need to Know About Disease Ecology to Prevent Lyme Disease in the Northeastern United States?: Table 1.

et al. 2012

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Lyme disease is the most commonly reported vector-borne disease in the United States, with the majority of cases occurring in the Northeast. It has now been three decades since the etiological agent of the disease in North America, the spirochete Borrelia burgdorferi, and its primary North American vectors, the ticks Ixodes scapularis Say and I. pacificus Cooley & Kohls, were identified. Great strides have been made in our understanding of the ecology of the vectors and disease agent, and this knowledge has been used to design a wide range of prevention and control strategies. However, despite these advances, the number of Lyme disease cases have steadily increased. In this article, we assess potential reasons for the continued lack of success in prevention and control of Lyme disease in the northeastern United States, and identify conceptual areas where additional knowledge could be used to improve Lyme disease prevention and control strategies. Some of these areas include: 1) identifying critical host infestation rates required to maintain enzootic transmission of B. burgdorferi, 2) understanding how habitat diversity and forest fragmentation impacts acarological risk of exposure to B. burgdorferi and the ability of interventions to reduce risk, 3) quantifying the epidemiological outcomes of interventions focusing on ticks or vertebrate reservoirs, and 4) refining knowledge of how human behavior influences Lyme disease risk and identifying barriers to the adoption of personal protective measures and environmental tick management.

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Efficacy of Aerial Spraying of Mosquito Adulticide in Reducing Incidence of West Nile Virus, California, 2005

Abstract: One-sentence summary for table of contents: Aerial spraying reduced incidence of human infection.

Cited by 79 publications

References 22 publications

Effect of Aerial Insecticide Spraying on West Nile Virus Disease—North-Central Texas, 2012

Effect of Aerial Insecticide Spraying on West Nile Virus Disease—North-Central Texas, 2012

Prediction, Assessment of the Rift Valley Fever Activity in East and Southern Africa 2006–2008 and Possible Vector Control Strategies

What Do We Need to Know About Disease Ecology to Prevent Lyme Disease in the Northeastern United States?: Table 1.

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