Publications (2)4.75 Total impact
-
Article: Development and validation of an Australian in-house anti-pertussis toxin IgG and IgA enzyme immunoassay.
[show abstract] [hide abstract]
ABSTRACT: AIMS:: Although anti-pertussis toxin (PT) immunoglobulin G (IgG) is considered one of the most specific serological markers for Bordetella pertussis infection, there are few commercial kits available in Australia. We aimed to present the process of development, quality control and on-going clinical validation of an anti-PT IgG and IgA enzyme immunoassay (EIA) in use since 1999, and discuss the application of such tests in the diagnosis of B. pertussis infections. METHODS:: A total of 1311 serum samples were used during multiple clinical validations from 1998 to 2010. The samples were drawn from healthy adults, children, patients with other respiratory infections, and patients with confirmed pertussis. Assay reproducibility, accuracy and precision criteria conformed to National Pathology Accreditation Advisory Council (NPAAC) guidelines. RESULTS:: Using the World Health Organization clinical and/or laboratory definition of a definite case as the comparative standard, sensitivity was 84% [95% confidence interval (CI) 75-93] and specificity was 98% (95%CI: 90-100) for anti-PT IgG. Sensitivity was 72% (95%CI 64-80) and specificity was 98% (95%CI 90-100) for anti-PT IgA. There was minimal background positivity in either healthy adults or children using the established cut-offs. There was no appreciable effect of immunisation or cross reactions with other respiratory pathogens. CONCLUSION:: Serological evaluation of various populations enabled the development of an anti-PT IgG and IgA EIA assay which was suitable for the diagnosis of acute infection in convalescent samples from clinically confirmed cases. Repeated evaluations of population-based cut-offs are required for in-house assays to ensure they remain clinically relevant. The subsequent validation of the cut-offs with WHO international standards has been published in a recent prospective study.Pathology 12/2012; · 2.38 Impact Factor -
Article: Prospective evaluation of an Australian pertussis toxin IgG and IgA enzyme immunoassay.
[show abstract] [hide abstract]
ABSTRACT: Serological diagnosis of recent pertussis infection is an important part of both clinical assessment and epidemiological documentation of this disease. Standardization of serological testing and interpretation remains challenging despite international efforts to improve it. Currently, determining the anti-pertussis toxin (PT) IgG titer is recommended as the most accurate serological test in Europe and the United States, while Australia relies predominantly on measurement of Bordetella pertussis IgA antibody responses. Using B. pertussis PCR and the WHO clinical case definition as reference standards, the diagnostic utility of in-house anti-PT IgG and anti-PT IgA assays was evaluated prospectively in an Australian community-based cohort (n = 327). Patients provided up to four consecutive serum samples to document the kinetics of antibody response and decay. Previously validated cutoffs for positivity were converted to international units by using WHO-approved reference sera. At currently used cutoffs, both anti-PT IgG (>94 IU/ml) and anti-PT IgA (>20 IU/ml) assays had good specificity (80% [95% confidence interval {95% CI}, 68 to 88%] and 87% [95% CI, 77 to 94%]), but anti-PT IgG assay was consistently more sensitive than anti-PT IgA assay across a range of cutoffs (60 to 79% [95% CI, 53 to 84%] versus 41 to 62% [95% CI, 34 to 69%]). The combination of anti-PT IgG and anti-PT IgA assays performed no better than anti-PT IgG assay alone. The anti-PT IgA response in children under 12 years of age was poor. The accuracy of serology was optimal between 2 and 8 weeks after symptom onset. Cutoffs of >94 IU/ml for anti-PT IgG and >20 IU/ml for anti-PT IgA correlated well with recent pertussis infection and were consistent with recent recommendations from the EU Pertstrain group. Anti-PT IgG assay was superior to anti-PT IgA assay as the test of choice for the diagnosis of pertussis from a single sample.Clinical and vaccine immunology: CVI 11/2011; 19(2):190-7. · 2.37 Impact Factor
