Neisseria meningitidis porA, fetA and fHbp gene distribution in Western Australia 2000 to 2011.

BACKGROUND: PorA, fetA and fHbp are three antigen encoding genes useful for meningococcal typing and FHbp is an important component of meningococcal B vaccines. METHODS: We performed sequence analysis of meningococcal porA, fetA and fHbp genes on 128 isolates from Western Australia, relating results to age, gender, race and geographic region. RESULTS: We found predominantly PorA subtypes P1.22,14-16 (n = 23) and P1.7-2,4 (n = 19); FetA subtypes F1-5 (n = 41), F3-6 (n = 11), F5-1 (n = 10), F5-2 (n = 9), F5-5 (n = 8), F3-3 (n = 8); and FHbp variant groups 1 (n = 65) and 2 (n = 44). PorA P1.22,14-16 and FHbp variant group 2 were associated with younger age and aboriginality. CONCLUSIONS: FHbp modular groups of the bivalent recombinant FHbp vaccine and the multicomponent 4CMenB vaccine make up 8.3% and 47.7% respectively of the examined serogroup B isolates from 2000-2011, however to estimate vaccine efficacy requires an account of all vaccine antigens and their levels of expression.

Prevalence of and risk factors for human rhinovirus infection in healthy aboriginal and non-aboriginal Western Australian children.

BACKGROUND: Human rhinovirus (HRV) species C (HRV-C) have been associated with frequent and severe acute lower respiratory infections and asthma in hospitalized children. The prevalence of HRV-C among healthy children and whether this varies with ethnicity is unknown. OBJECTIVE: To describe the prevalence of HRV species and their associations with demographic, environmental and socioeconomic factors in healthy Aboriginal and non-Aboriginal children. METHODS: Respiratory viruses and bacteria were identified in 1006 nasopharyngeal aspirates collected from a cohort of 79 Aboriginal and 88 non-Aboriginal Western Australian children before 2 years of age. HRV-positive nasopharyngeal aspirates were typed for HRV species and genotypes. Longitudinal growth models incorporating generalized estimating equations were used to investigate associations between HRV species and potential risk factors. RESULTS: Of the 159 typed specimens, we identified 83 (52.2%) human rhinovirus species A (HRV-A), 26 (16.4%), human rhinovirus species B and 50 (31.4%) HRV-C. HRV-C was associated with upper respiratory symptoms in Aboriginal (odds ratio, 3.77; 95% confidence interval:1.05-13.55) and non-Aboriginal children (odds ratio, 5.85; 95% confidence interval: 2.33-14.66). HRV-A and HRV-C were associated with carriage of respiratory bacteria. In Aboriginal children, HRV-A was more common in the summer and in those whose mothers were employed prior to delivery. In non-Aboriginal children, day-care attendance and exclusive breast-feeding at age 6-8 weeks were associated with detection of HRV-A, and gestational smoking with detection of HRV-C. CONCLUSIONS: Factors associated with the presence of HRV differ between Aboriginal and non-Aboriginal children. In contrast to HRV-A, HRV-C is associated with upper respiratory symptoms suggesting that HRV-C is likely to be implicated in respiratory illness.

The interaction between respiratory viruses and pathogenic bacteria in the upper respiratory tract of asymptomatic Aboriginal and non-Aboriginal children.

BACKGROUND: Associations between respiratory viruses and the bacterial pathogens Streptococcus pneumoniae, Haemophilus influenzae, and Moraxella catarrhalis may be important in the pathogenesis of otitis media (OM). However, data on asymptomatic identification rates of respiratory viruses are limited, particularly in Indigenous populations, who suffer a high burden of OM. METHODS: We describe the identification of respiratory viruses alone and in combination with pathogenic OM bacteria in 1006 nasopharyngeal aspirates collected from asymptomatic Aboriginal and non-Aboriginal children in a longitudinal community-based cohort study in rural Western Australia. RESULTS: Viruses were identified in 42% of samples from Aboriginal and 32% from non-Aboriginal children. Rhinoviruses were the most frequently identified virus with higher identification rates in Aboriginal (23.6%) than non-Aboriginal children (16.5%; P = 0.003). Rhinoviruses were associated with H. influenzae (odds ratio [OR], 2.24; 95% CI, 1.24-4.07 for Aboriginal children) and M. catarrhalis (OR, 1.94; 95% CI, 1.05-3.57 for Aboriginal children). Adenoviruses were positively associated with H. influenzae in Aboriginal children (OR, 3.30; 95% CI, 1.19-9.09) and M. catarrhalis in non-Aboriginal children (OR, 5.75; 95% CI, 1.74-19.23), but negatively associated with S. pneumoniae in Aboriginal children (OR, 0.39; 95% CI, 0.18-0.84). CONCLUSIONS: We found a high identification rate of rhinoviruses and adenoviruses in asymptomatic children. The associations between these viruses and OM bacteria have implications for preventive strategies targeted at specific pathogens.

Meningitis and a febrile vomiting illness caused by echovirus type 4, Northern Territory, Australia.

In July 2007, a cluster of meningitis cases caused by an echovirus 4 strain was detected in 1 indigenous community in the Top End of the Northern Territory of Australia. Illness was characterized by fever, vomiting, and headache. Over the next 4 months, additional cases of meningitis and the fever and vomiting syndrome emerged in other indigenous communities and subsequently in the major urban center of Darwin. We describe the epidemiology of 95 laboratory-confirmed meningitis cases and conclude that the epidemic fever and vomiting syndrome was caused by the same enterovirus. Nucleotide sequencing of the whole genome verified this enterovirus (AUS250G) as a strain of echovirus type 4. Viral protein 1 nucleotide sequencing demonstrated 96% homology with an echovirus 4 strain responsible for a large outbreak of meningitis in the Yanbian Prefecture of China in 1996.

An economical tandem multiplex real-time PCR technique for the detection of a comprehensive range of respiratory pathogens.

This study used real-time PCR assays to screen small sample volumes for a comprehensive range of 35 respiratory pathogens. Initial thermocycling was limited to 20 cycles to avoid competition for reagents, followed by a secondary real-time multiplex PCR. Supplementary semi-nested human metapneumovirus and picornavirus PCR assays were required to complete the acute respiratory pathogen profile. Potential pathogens were detected in 85 (70%) of pernasal aspirates collected from 121 children with acute respiratory symptoms. Multiple pathogens were detected in 29 (24%) of those samples. The tandem multiplex real-time PCR was an efficient method for the rapid detection of multiple pathogens.

Global distribution of novel rhinovirus genotype.

Global surveillance for a novel rhinovirus genotype indicated its association with community outbreaks and pediatric respiratory disease in Africa, Asia, Australia, Europe, and North America. Molecular dating indicates that these viruses have been circulating for at least 250 years.

PCR-based identification of Burkholderia pseudomallei.

DNA amplification techniques are being used increasingly in clinical laboratories to confirm the identity of medically important bacteria. A PCR-based identification method has been in use in our centre for 10 years for Burkholderia pseudomallei and was used to confirm the identity of bacteria isolated from cases of melioidosis in Ceará since 2003. This particular method has been used as a reference standard for less discriminatory methods. In this study we evaluated three PCR-based methods of B. pseudomallei identification and used DNA sequencing to resolve discrepancies between PCR-based results and phenotypic identification methods. The established semi-nested PCR protocol for B. pseudomallei 16-23s spacer region produced a consistent negative result for one of our 100 test isolates (BCC #99), but correctly identified all 71 other B. pseudomallei isolates tested. Anomalous sequence variation was detected at the inner, reverse primer binding site for this method. PCR methods were developed for detection of two other B. pseudomallei bacterial metabolic genes. The conventional lpxO PCR protocol had a sensitivity of 0.89 and a specificity of 1.00, while a real-time lpxO protocol performed even better with sensitivity and specificity of 1.00, and 1.00. This method identified all B. pseudomallei isolates including the PCR-negative discrepant isolate. The phaC PCR protocol detected the gene in all B. pseudomallei and all but three B. cepacia isolates, making this method unsuitable for PCR-based identification of B. pseudomallei. This experience with PCR-based B. pseudomallei identification methods indicates that single PCR targets should be used with caution for identification of these bacteria, and need to be interpreted alongside phenotypic and alternative molecular methods such as gene sequencing.

PCR-based identification of Burkholderia pseudomallei / Identificação de Burkholderia pseudomallei baseada em PCR

DNA amplification techniques are being used increasingly in clinical laboratories to confirm the identity of medically important bacteria. A PCR-based identification method has been in use in our centre for 10 years for Burkholderia pseudomallei and was used to confirm the identity of bacteria isolated from cases of melioidosis in Ceará since 2003. This particular method has been used as a reference standard for less discriminatory methods. In this study we evaluated three PCR-based methods of B. pseudomallei identification and used DNA sequencing to resolve discrepancies between PCR-based results and phenotypic identification methods. The established semi-nested PCR protocol for B. pseudomallei 16-23s spacer region produced a consistent negative result for one of our 100 test isolates (BCC #99), but correctly identified all 71 other B. pseudomallei isolates tested. Anomalous sequence variation was detected at the inner, reverse primer binding site for this method. PCR methods were developed for detection of two other B. pseudomallei bacterial metabolic genes. The conventional lpxO PCR protocol had a sensitivity of 0.89 and a specificity of 1.00, while a real-time lpxO protocol performed even better with sensitivity and specificity of 1.00, and 1.00. This method identified all B. pseudomallei isolates including the PCR-negative discrepant isolate. The phaC PCR protocol detected the gene in all B. pseudomallei and all but three B. cepacia isolates, making this method unsuitable for PCR-based identification of B. pseudomallei. This experience with PCR-based B. pseudomallei identification methods indicates that single PCR targets should be used with caution for identification of these bacteria, and need to be interpreted alongside phenotypic and alternative molecular methods such as gene sequencing.

As técnicas de amplificação de DNA estão sendo cada vez mais utilizadas em laboratórios clínicos para a confirmação da identificação de bactérias que têm importância médica. Um método de identificação de Burkholderia pseudomallei baseado em PCR tem sido usado em nosso centro há 10 anos e foi utilizado para confirmar a identificação de bactérias isoladas de casos de melioidose no Ceará desde 2003. Este método particular tem sido usado como padrão ouro para métodos menos discriminatórios. Nesse estudo, avaliamos três métodos de identificação de B. pseudomallei baseados em PCR e usamos seqüenciamento de DNA para solucionar discrepâncias entre os resultados baseados em PCR e os métodos de identificação fenotípica. O estabelecido protocolo de PCR semi-nested para a região espacial 16-23s da B. pseudomallei produziu um consistente resultado negativo para um de nossos 100 isolados testados (BCC#99), mas identificou corretamente todos os outros 71 isolados de B. pseudomallei. Uma variação anômala da seqüência foi detectada na região interna do sítio de ligação do primer reverso para este método. Métodos de PCR foram desenvolvidos para a detecção de outros dois genes bacterianos metabólicos de B. pseudomallei. O protocolo de PCR IpxO convencional teve sensibilidade de 0,89 e especificidade de 1,0, enquanto que o PCR em tempo real mostrou-se ainda melhor, com sensibilidade de 1,0 e especificidade de 1,0. Este método identificou todos os isolados de B. pseudomallei, incluindo o isolado discrepante que teve o PCR negativo. O protocolo de PCR phaC detectou o gene de todos os B. pseudomallei e em todos exceto três isolados de B. cepacia, tornando este método de identificação de B. pseudomallei baseado em PCR inadequado. Esta experiência com métodos de identificação de B. pseudomallei baseados em PCR indica que devemos ter precaução quando estes forem utilizados sozinhos para identificação dessa bactéria e que eles necessitam ser interpretados em conjunto com métodos fenotípicos e moleculares alternativos, tais como seqüenciamento genético.

Detection and discrimination of herpes simplex viruses, Haemophilus ducreyi, Treponema pallidum, and Calymmatobacterium (Klebsiella) granulomatis from genital ulcers.

BACKGROUND: Genital ulcer disease (GUD) is commonly caused by pathogens for which suitable therapies exist, but clinical and laboratory diagnoses may be problematic. This collaborative project was undertaken to address the need for a rapid, economical, and sensitive approach to the detection and diagnosis of GUD using noninvasive techniques to sample genital ulcers. METHODS: The genital ulcer disease multiplex polymerase chain reaction (GUMP) was developed as an inhouse nucleic acid amplification technique targeting serious causes of GUD, namely, herpes simplex viruses (HSVs), H. ducreyi, Treponema pallidum, and Klebsiella species. In addition, the GUMP assay included an endogenous internal control. Amplification products from GUMP were detected by enzyme linked amplicon hybridization assay (ELAHA). RESULTS: GUMP-ELAHA was sensitive and specific in detecting a target microbe in 34.3% of specimens, including 1 detection of HSV-1, three detections of HSV-2, and 18 detections of T. pallidum. No H. ducreyi has been detected in Australia since 1998, and none was detected here. No Calymmatobacterium (Klebsiella) granulomatis was detected in the study, but there were 3 detections during ongoing diagnostic use of GUMP-ELAHA in 2004 and 2005. The presence of C. granulomatis was confirmed by restriction enzyme digestion and nucleotide sequencing of the 16S rRNA gene for phylogenetic analysis. CONCLUSIONS: GUMP-ELAHA permitted comprehensive detection of common and rare causes of GUD and incorporated noninvasive sampling techniques. Data obtained by using GUMP-ELAHA will aid specific treatment of GUD and better define the prevalence of each microbe among at-risk populations with a view to the eradication of chancroid and donovanosis in Australia.

Melioidosis, northeastern Brazil.

Melioidosis was first recognized in northeastern Brazil in 2003. Confirmation of additional cases from the 2003 cluster in Ceará, more recent cases in other districts, environmental isolation of Burkholderia pseudomallei, molecular confirmation and typing results, and positive serosurveillance specimens indicate that melioidosis is more widespread in northeastern Brazil than previously thought.

Comparison of diagnostic laboratory methods for identification of Burkholderia pseudomallei.

Limited experience and a lack of validated diagnostic reagents make Burkholderia pseudomallei, the cause of melioidosis, difficult to recognize in the diagnostic microbiology laboratory. We compared three methods of confirming the identity of presumptive B. pseudomallei strains using a collection of Burkholderia species drawn from diverse geographic, clinical, and environmental sources. The 95 isolates studied included 71 B. pseudomallei and 3 B. thailandensis isolates. The API 20NE method identified only 37% of the B. pseudomallei isolates. The agglutinating antibody test identified 82% at first the attempt and 90% including results of a repeat test with previously negative isolates. Gas-liquid chromatography analysis of bacterial fatty acid methyl esters (GLC-FAME) identified 98% of the B. pseudomallei isolates. The agglutination test produced four false positive results, one B. cepacia, one B. multivorans, and two B. thailandensis. API produced three false positive results, one positive B. cepacia and two positive B. thailandensis. GLC-FAME analysis was positive for one B. cepacia isolate. On the basis of these results, the most robust B. pseudomallei discovery pathway combines the previously recommended isolate screening tests (Gram stain, oxidase test, gentamicin and polymyxin susceptibility) with monoclonal antibody agglutination on primary culture, followed by a repeat after 24 h incubation on agglutination-negative isolates and GLC-FAME analysis. Incorporation of PCR-based identification within this schema may improve percentages of recognition further but requires more detailed evaluation.

Human papillomavirus genotypes and their association with cervical neoplasia in a cohort of Western Australian women.

Human papillomavirus (HPV) is known to be the cause of almost all cervical cancers. The genotypes have been classified into high and low risk types according to their oncogenic potential. However, data for many of the genotypes are limited and some (HPV-26, 53, and 66) have no agreed status. A study was undertaken to determine the HPV genotype distribution in women of Western Australia and the association with cervical neoplasia. Liquid based cervical samples from a cohort of 282 Western Australian women were tested for HPV DNA by PCR followed by DNA sequencing to determine HPV genotypes. HPV-53 and HPV-16 were the most common genotypes found in this population. In addition 86 archived liquid based cervical samples from women with cervical intraepithelial neoplasia grades 1-3 (CIN 1-3) were tested for HPV DNA. Also 32 archived paraffin biopsy samples from women with squamous cell carcinoma were also tested. HPV-16 was the most common genotype found in these samples. Of the cohort of Western Australian women tested, 27% were found to contain HPV and approximately half of these contained known high-risk HPV genotypes, but only 30% of these were types 16 or 18. The data from this study indicate that HPV-53 is not oncogenic based on an R value and odds ratio (OR) of zero. The data also suggest that HPV-73 may be oncogenic, while HPV-66 is unlikely to be. Two high-risk HPV genotypes that are associated with the Asian region (HPV-52 and HPV-58) were found in Western Australian women suggesting a possible epidemiological link between women in these countries.

Does sequencing the PKRBD of hepatitis C virus NS5A predict therapeutic response to combination therapy in an Australian population?

UNLABELLED: Abstract Background and Aim: The presence of four or more amino acid substitutions within the interferon sensitivity determining region (ISDR) of the hepatitis C virus (HCV) genotype 1b NS5A gene determines sensitivity to interferon (IFN) monotherapy in Japanese patients. Resistance of HCV genotype 1 to IFN-alpha has been attributed to the functional inhibition of a RNA dependent protein kinase (PKR) by the HCV NS5A PKR binding domain (PKRBD), which includes the ISDR. The ability of the ISDR and PKRBD sequence to predict a response to IFN-alpha and ribavirin combination therapy was investigated in an Australian population. METHODS: The sequence of the PKRBD of NS5A, including the ISDR, for the dominant quasi-species of HCV was determined in 37 genotype 1 (genotype 1a: n = 26, genotype 1b: n = 11) and 13 genotype 3a infected patients. RESULTS: The number of PKRBD amino acid substitutions in HCV genotype 1 infected patients with a sustained virological response was significantly higher than that in patients with a non-response to treatment (P = 0.047). It was found that only 2/37 HCV genotype 1 infected patients had four or more amino acid substitutions relative to the prototype ISDR sequence (HCV-J). Importantly, a sustained virological response was not found in any of the HCV infected patients who had a prototype ISDR genotype 1 sequence (n = 5). CONCLUSIONS: There are relatively few amino acid mutations within the ISDR of this Western Australian patient population. Patients infected with a HCV genotype 1 prototype sequence should be counseled before receiving combination IFN-alpha and ribavirin therapy as they have a poor response to treatment.

Invasion of spores of the arbuscular mycorrhizal fungus Gigaspora decipiens by Burkholderia spp.

Burkholderia species are bacterial soil inhabitants that are capable of interacting with a variety of eukaryotes, in some cases occupying intracellular habitats. Pathogenic and nonpathogenic Burkholderia spp., including B. vietnamiensis, B. cepacia, and B. pseudomallei, were grown on germinating spores of the arbuscular mycorrhizal fungus Gigaspora decipiens. Spore lysis assays revealed that all Burkholderia spp. tested were able to colonize the interior of G. decipiens spores. Amplification of specific DNA sequences and transmission electron microscopy confirmed the intracellular presence of B. vietnamiensis. Twelve percent of all spores were invaded by B. vietnamiensis, with an average of 1.5 x 10(6) CFU recovered from individual infected spores. Of those spores inoculated with B. pseudomallei, 7% were invaded, with an average of 5.5 x 10(5) CFU recovered from individual infected spores. Scanning electron and fluorescence microscopy provided insights into the morphology of surfaces of spores and hyphae of G. decipiens and the attachment of bacteria. Burkholderia spp. colonized both hyphae and spores, attaching to surfaces in either an end-on or side-on fashion. Adherence of Burkholderia spp. to eukaryotic surfaces also involved the formation of numerous fibrillar structures.