Israel Ribshtein scite author profile

Israel Ribshtein

3Publications

21Citation Statements Received

12Citation Statements Given

How they've been cited

How they cite others

Affiliations

University of Georgia

Publications

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Avian Influenza Virus H9N2 Survival at Different Temperatures and pHs

Davidson¹,

Nagar²,

Haddas³

et al. 2010

Avian Diseases

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The H9N2 avian influenza virus (AIV) subtype has become endemic in Israel since its introduction in 2000. The disease has been economically damaging to the commercial poultry industry, in part because of the synergistic pathology of coinfection with other viral and/or bacterial pathogens. Avian influenza virus viability in the environment depends on the cumulative effects of chemical and physical factors, such as humidity, temperature, pH, salinity, and organic compounds, as well as differences in the virus itself. We sought to analyze the viability of AIV H9N2 strains at three temperatures (37, 20, and 4 C) and at 2 pHs (5.0 and 7.0). Our findings indicated that at 37 C AIV H9N2 isolate 1525 (subgroup IV) survived for a period of time 18 times shorter at 20 C, and 70 times shorter period at 4 C, as measured by a decrease in titer. In addition, the virus was sensitive to a lower pH (pH 5.0) with no detectable virus after 1 wk incubation at 20 C as compared to virus at pH 7.0, which was viable for at least 3 wk at that temperature. The temperature sensitivity of the virus corresponds to the occurrence of H9N2 outbreaks during the winter, and lower pH can greatly affect the viability of the virus.

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Detection of Wild- and Vaccine-type Avian Infectious Laryngotracheitis Virus in Clinical Samples and Feather Shafts of Commercial Chickens

Davidson¹,

Nagar²,

Ribshtein³

et al. 2009

Avian Diseases Digest

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Detection of Wild- and Vaccine-Type Avian Infectious Laryngotracheitis Virus in Clinical Samples and Feather Shafts of Commercial Chickens

et al. 2009

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Infectious laryngotracheitis (ILT) is a respiratory disease of poultry caused by an alphaherpesvirus (ILTV). To evaluate differential detection of ILTVs belonging to the two types, wild-type or vaccine-type, both causing clinical signs, five PCRs were evaluated to detect wild-type and vaccine-type ILTV in clinical samples. By directly sampling the organs, we aimed to avoid changes in the virus genome and to facilitate a fast diagnosis. The samples were tracheal and spleen homogenates and feather shafts. The latter are easy to collect, nonlethal for the bird, and advantageous for monitoring purposes. We investigated the time interval for vaccine virus detection following commercial vaccination by the vent application, which is successfully practiced in Israel. The study indicated that ILTV amplification from feather shafts was possible in clinical cases for about a one-month period after vaccination. Vaccine strains were identified by nested PCR for the ILTV-gE gene and differed from wild-type ILTV strains by two criteria: (1) While avirulent vaccines could be detected for about a month after the vent application, wild-type virus could be detected, in conjunction with clinical signs, for an unlimited time period; and (2) The ILTV vaccine was present in the bird in minute quantities compared to the wild-type virus. We assessed the virus type that appeared in conjunction with the clinical signs and determined that the clinical signs appeared in conjunction with both molecular forms of ILTV. The vaccine virus-type and the wild-type ILTV differed by their distinct restriction pattern when using the HaeIII restriction enzyme digestion of the nested amplification product.

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