Validated H5 Eurasian Real-Time Reverse Transcriptase–Polymerase Chain Reaction and Its Application in H5N1 Outbreaks in 2005–2006

Slomka, Marek J.; Pavlidis, T.; Banks, Jill; Shell, Wendy; McNally, Alan; Essen, Steve; Brown, Ian H.

doi:10.1637/7664-060906r1.1

Cited by 175 publications

(142 citation statements)

References 5 publications

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“…All samples from birds challenged with HPAI viruses were tested using the matrix-gene real-time reverse transcription-polymerase chain reaction (RRT-PCR) assay described by Slomka et al (2007). All samples from birds challenged with NDV were tested using the RRT-PCR assay of Fuller et al (2009) adapted using a homologous probe.…”

Section: Methodsmentioning

confidence: 99%

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Infection dynamics of highly pathogenic avian influenza and virulent avian paramyxovirus type 1 viruses in chickens, turkeys and ducks

et al. 2010

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A range of virus doses were used to infect 3-week-old chickens, turkeys and ducks intranasally/intraocularly, and infection was confirmed by the detection of virus shedding from the buccal or cloacal route by analysis of swabs collected using real-time reverse transcriptase-polymerase chain reaction assays. The median infectious dose (ID 50 ) and the median lethal dose (LD 50 ) values for two highly pathogenic avian influenza (HPAI) viruses of H5N1 and H7N1 subtypes and one virulent Newcastle disease virus (NDV) were determined for each virus and host combination. For both HPAI viruses, turkeys were 100-fold more susceptible to infection than chickens, while both these hosts were 10-fold more susceptible to H5N1 virus than the H7N1 virus. All infected chickens and turkeys died. Ducks were also much more readily infected with the H5N1 virus (ID 50 510 1 median embryo infective dose [EID 50 ]) than the H7N1 virus (ID 50 0 10 4.2 EID 50 ). However, the most notable difference between the two viruses was their virulence for ducks, with a LD 50 of 10 3 EID 50 for the H5N1 virus, but no deaths in ducks being attributed to infection with H7N1 virus even at the highest dose (10 6 EID 50 ). For both HPAI virus infections of ducks, the ID 50 was lower than the LD 50 , indicating that infected birds were able to survive and thus excrete virus over a longer period than chickens and turkeys. The NDV strain used did not appear to establish infection in ducks even at the highest dose used (10 6 EID 50 ). Some turkeys challenged with 10 6 EID 50 , but not other doses, of NDV excreted virus for a number of days (ID 50 010 4.6 EID 50 ), but none died. In marked contrast, chickens were shown to be extremely susceptible to infection and all infected chickens died (ID 50 /LD 50 010 1.9 EID 50 ).

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Section: Methodsmentioning

confidence: 99%

“…All RRT-PCR tests were performed alongside a series of RNA standards prepared from 10-fold dilutions of the challenge virus stock preparation. According to the test guidelines, any sample with a threshold cycle (Ct) value 35 was considered negative (Spackman et al, 2003;Slomka et al, 2007;Fuller et al, 2009).…”

Section: Methodsmentioning

confidence: 99%

Infection dynamics of highly pathogenic avian influenza and virulent avian paramyxovirus type 1 viruses in chickens, turkeys and ducks

et al. 2010

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“…Three carcasses were selected by the veterinary service and submitted to the National Reference Centre for Poultry and Rabbit Diseases (NRGK) in Zurich. The suspicious necropsy findings and the subsequent positive M-gene real-time reverse transcriptase PCR ((rtRT-PCR), (Dalessi et al, 2007)) confirmed the detection of AIV, further corroborated by a positive H5 rtRT-PCR (Slomka et al, 2007). For pathotyping and determination of the neuraminidase subtype, organ samples (brain and kidney) were submitted to the Institute of Virology and Immunology (IVI) in Mittelhäusern.…”

Section: Chronology Of the Outbreak And Measuresmentioning

confidence: 93%

Outbreak of Highly Pathogenic Avian Influenza H5N8 in November 2016 in Wild Birds in Switzerland

Meier¹,

Hüssy²,

Hofmann³

et al. 2017

SAT

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“…3. An H5 RRT-PCR that amplifies within the HA2 portion of the H5 gene was as described and validated (Slomka et al, 2007a (Slomka et al, 2007a). Each final reaction volume was 25 ml and included 2 ml extracted RNA, but the ROX reference dye was excluded.…”

Section: Virus Isolationmentioning

confidence: 99%

“…M-gene, H5 and N1 RRT-PCRs are validated methods (Spackman et al, 2002;Payungporn et al, 2006;Slomka et al, 2007a) that have been recommended in the European Union (EU) Diagnostic Manual for AI (EU, 2006). Suspect AI investigations in the EU normally utilize the M-gene RRT-PCR as a generic first-line screening test, and positive AI results are promptly followed by H5 and H7-specific RRT-PCRs to identify NAI (EU, 2006).…”

Section: Introductionmentioning

confidence: 99%

Challenges for accurate and prompt molecular diagnosis of clades of highly pathogenic avian influenza H5N1 viruses emerging in Vietnam

Slomka

Tong

et al. 2012

Avian Pathology

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Forty-six chickens and 48 ducks were sampled from four Vietnamese poultry premises in 2009 infected with H5N1 highly pathogenic avian influenza (HPAI) clade 2.3.2 and 2.3.4 viruses, which also differed by cleavage site (CS) sequences in their haemagglutinin (HA) genes. All clinical specimens (n0282), namely tracheal and cloacal swabs plus feathers, were tested by five Eurasian reverse-transcriptase AI RealTime polymerase chain reaction (RRT-PCR) methods. Bayesian modelling showed similar high sensitivity for the validated H5 HA2 RRT-PCR and a new modified M-gene RRT-PCR that utilizes lyophilized reagents. Both were more sensitive than the validated ''wet'' M-gene RRT-PCR. Another RRT-PCR, which targeted the H5-gene CS region, was effective for clade 2.3.4 detection, but severely compromised for clade 2.3.2 viruses. Reduced sensitivity of the H5 CS and ''wet'' M-gene RRT-PCRs correlated with mismatches between the target and the primer and/or probe sequences. However, the H5 HA2 RRT-PCR sensitively detected both clade 2.3.2 and 2.3.4 viruses, and agreed with N1 RRT-PCR results. Feather testing from diseased chicken and duck flocks by AI RRT-PCRs resulted in the most sensitive identification of H5N1 HPAI-infected birds. Evolution of new H5N1 HPAI clades remains a concern for currently affected Asian countries, but also for more distant regions where it is important to be prepared for new incursions of H5N1 HPAI viruses. Genetic evidence for adamantane resistance and sensitivity was also observed in isolates from both clades.

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Validated H5 Eurasian Real-Time Reverse Transcriptase–Polymerase Chain Reaction and Its Application in H5N1 Outbreaks in 2005–2006

Cited by 175 publications

References 5 publications

Infection dynamics of highly pathogenic avian influenza and virulent avian paramyxovirus type 1 viruses in chickens, turkeys and ducks

Infection dynamics of highly pathogenic avian influenza and virulent avian paramyxovirus type 1 viruses in chickens, turkeys and ducks

Outbreak of Highly Pathogenic Avian Influenza H5N8 in November 2016 in Wild Birds in Switzerland

Challenges for accurate and prompt molecular diagnosis of clades of highly pathogenic avian influenza H5N1 viruses emerging in Vietnam

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