Mosquito surveillance and polymerase chain reaction detection of West Nile virus, New York State.

West Nile (WN) virus was detected in the metropolitan New York City (NYC) area during the summer and fall of 1999. Sixty-two human cases, 7 fatal, were documented. The New York State Department of Health initiated a departmental effort to implement a statewide mosquito and virus surveillance system. During the 2000 arbovirus surveillance season, we collected 317,676 mosquitoes, submitted 9,952 pools for virus testing, and detected 363 WN virus-positive pools by polymerase chain reaction (PCR). Eight species of mosquitoes were found infected. Our mosquito surveillance system complemented other surveillance systems in the state to identify relative risk for human exposure to WN virus. PCR WN virus-positive mosquitoes were detected in NYC and six counties in the lower Hudson River Valley and metropolitan NYC area. Collective surveillance activities suggest that WN virus can disperse throughout the state and may impact local health jurisdictions in the state in future years.

New distribution records of Amblyomma americanum (L.) (Acari: Ixodidae) in New York State.

Amblyomma americanum, commonly called the lone star tick, has been widely-distributed in the southeastern United States for many years. Distribution of this species apparently did not extend to New York State until the 1970s, after which the northern distribution in New York was limited to Long Island (Suffolk and Nassau counties), where it has become locally abundant. Since then, there has been just one published record from New York State, in Westchester County, just north of New York City. From 1988 to 1996, through the Tick Identification Service of the New York State Department of Health, 244 specimens of A. americanum were documented from mammalian hosts in 46 of the 62 New York State counties. These records extend the distribution of A. americanum to several more northern and western New York State counties. With a demonstrated expansion of geographic distribution, continued surveillance of A. americanum is of great public health importance. Besides being a severe pest where abundant, this species is a probable vector of human monocytic ehrlichiosis (HME), and a suspected vector of Borrelia lonestari, the etiologic agent of a Lyme disease-like illness.

Human and rodent hantavirus infection in New York State: public health significance of an emerging infectious disease.

BACKGROUND: A case of hantavirus pulmonary syndrome with possible exposure in New York and/or Rhode Island was confirmed in February 1994. OBJECTIVE: To conduct four studies to determine the historical and geographic distribution of human and small-mammal infection with hantaviruses in New York State. METHODS: Enzyme-linked immunosorbent assays were performed on serum samples obtained from 130 humans during a 1978 babesiosis survey, 907 small mammals collected in New York State since 1984, 12 rodents collected in 1994 near the residences of the patients with hantavirus pulmonary syndrome, and 76 New York patients with acute respiratory distress syndrome-like illness (as suspected cases of hantavirus pulmonary syndrome). RESULTS: None of the human serum samples from the 1978 serosurvey showed evidence of hantavirus exposure by enzyme-linked immunosorbent assay. Statewide historical serum samples from white-footed mice showed evidence of Sin Nombre virus infection in 12.0% (97/809) and Seoul-like virus infection in 9.6% (78/809). Site-specific seropositivity rates were as high as 48.5% with Sin Nombre virus during 1 year (1984). Two of 12 mice captured near the residences of a human patient were positive for Sin Nombre virus by enzyme-linked immunosorbent assay, yet were negative for viral RNA by polymerase chain reaction. None of the patients with suspected hantavirus pulmonary syndrome was serologically reactive for Sin Nombre virus. CONCLUSIONS: We provide serologic evidence of small-mammal infection with hantaviruses in New York State as long ago as 1984. Human cases of hantavirus pulmonary syndrome are rare in New York, and data indicate that transmission to humans is probably infrequent. A unique set of host, agent, and environmental factors may be necessary to cause hantavirus pulmonary syndrome in humans.

The geographic spread and temporal increase of the Lyme disease epidemic.

OBJECTIVE: To describe the temporal and geographic progression of the Lyme disease epidemic in New York State from 1977 through 1989. DESIGN: Communicable disease surveillance system. SETTING: Statewide. MAIN OUTCOME MEASURES: The progression of the epidemic was examined by analyzing trends in Lyme disease cases reported to the state surveillance system, town and county Lyme disease incidence rates, Lyme disease hospital discharge rates, and the distribution of Ixodes dammini ticks obtained from surveillance efforts and submitted for identification. MAIN RESULTS: The number of confirmed Lyme disease cases in New York has increased with concurrent increases in the number of hospital discharges. The number of counties endemic for Lyme disease increased from four to eight between 1985 and 1989. The number of counties with documented I dammini ticks increased from four in 1985 to 22 in 1989. Incidence of the disease also increased within known endemic counties. CONCLUSIONS: Tick surveillance indicated that the range of I dammini has expanded annually into areas up to 384 km from the original known endemic areas of Long Island, NY, and Connecticut. Cumulative data from human surveillance resources document both temporal increases and geographic expansion of the Lyme disease epidemic in New York.