Evelyn Stelzl

Identification of Different States of Hepatitis B Virus Infection with a Quantitative PCR Assay

ABSTRACT The level of hepatitis B virus (HBV) DNA in serum reflects the replicative activity of HBV. To compare serum HBV DNA levels in different states of hepatitis B, 47 sera of patients with HBeAg-positive chronic hepatitis B, 4 sera of patients with HBeAg-negative chronic hepatitis B, 40 samples of patients after HBeAg seroconversion during alpha interferon treatment, 57 sera of inactive HBsAg carriers, and 42 sera of patients who had recovered from chronic hepatitis B more than 12 months prior to blood collection were checked for the presence of HBV DNA with the Amplicor HBV Monitor Test. In patients with HBeAg-positive chronic hepatitis B, the median of serum HBV DNA levels (8.3 × 108 copies/ml) was significantly higher than that for patients after HBeAg seroconversion (6.2 × 103 copies/ml) and than that for inactive HBsAg carriers (5.6 × 103 copies/ml). None of the patients who had recovered from hepatitis B had detectable HBV DNA in serum. Quantitative PCR proved to be a valuable tool for identification of different states of HBV infection. This technique was found to be a good method for determination of serum HBV DNA levels both for patients with HBeAg seroconversion and for inactive carriers who showed low viremia not detectable by conventional hybridization assays.

Rapid Quantification of Hepatitis B Virus DNA by Automated Sample Preparation and Real-Time PCR

ABSTRACT Monitoring of hepatitis B virus (HBV) DNA in serum by molecular methods has become the standard for assessment of the replicative activity of HBV. Several molecular assays for the detection and quantification of HBV DNA have been described. However, they usually lack automated sample preparation. Moreover, those assays, which are based on PCR, are limited by a short dynamic range (2 to 3 log units). In the present study, the use of RealArt HBV LC PCR Reagents in conjunction with automated extraction on the COBAS AMPLIPREP analyzer was evaluated. Members of an HBV proficiency program panel were tested; linearity, interassay, and intra-assay variations were determined. The performance of the assay in a routine clinical laboratory was evaluated with a total of 117 clinical specimens. When members of the HBV proficiency program panel were tested by the new molecular assay, the results were found to be within ±0.5 log unit of the results obtained by reference laboratories. Determination of linearity resulted in a quasilinear curve over more than 6 log units. The interassay variation of the RealArt HBV LC PCR Reagents by use of the automated sample preparation protocol ranged from 16 to 73%, and the intra-assay variation ranged from 9 to 40%. When clinical samples were tested by the new assay with the automated sample preparation protocol and the results were compared with those obtained by the COBAS AMPLICOR HBV MONITOR Test with manual sample preparation, the results for 76% of all samples with positive results by both tests were found to be within ±0.5 log unit and the results for another 18% were found to be within between 0.5 and 1.0 log unit. In conclusion, the real-time PCR assay with automated sample preparation proved to be suitable for the routine molecular laboratory and required less hands-on time.

Evaluation of an Automated Sample Preparation Protocol for Quantitative Detection of Hepatitis C Virus RNA

ABSTRACT The COBAS AMPLIPREP instrument for automated sample preparation has recently been introduced. In this study, the COBAS AMPLIPREP/COBAS AMPLICOR HCV MONITOR test, which includes this new molecular device, was evaluated and compared to the COBAS AMPLICOR HCV MONITOR test, which includes a manual extraction protocol. Interassay and intra-assay variation, precision, and linearity were determined, and a total of 130 clinical specimens were investigated. For determination of interassay variation, coefficients of variation were found to be between 9 and 59% for the COBAS AMPLIPREP/COBAS AMPLICOR HCV MONITOR test and between 13 and 69% for the COBAS AMPLICOR HCV MONITOR test. For determination of intra-assay variation, coefficients of variation were found to be between 7 and 13% for the COBAS AMPLIPREP/COBAS AMPLICOR HCV MONITOR test and between 8 and 16% for the COBAS AMPLICOR HCV MONITOR test. When precision of the COBAS AMPLIPREP/COBAS AMPLICOR HCV MONITOR test was tested, all results were found to be within ±0.5 log of the expected results. Determination of linearity resulted in a quasilinear curve over 3 logs. When clinical samples were tested with the COBAS AMPLIPREP/COBAS AMPLICOR HCV MONITOR test and compared with the COBAS AMPLICOR HCV MONITOR test, all results were found within ±0.5 log. In conclusion, the assay, which included the new molecular device, proved to be suitable for the routine molecular laboratory. It was found to be laborsaving and easy to handle.

Effects of Storage and Type of Blood Collection Tubes on Hepatitis C Virus Level in Whole Blood Samples

ABSTRACT In this study, we compared serum hepatitis C virus (HCV) RNA concentrations with HCV RNA concentrations in whole blood collection tubes, including two different types of EDTA tubes and nucleic acid stabilization tubes (NASTs). We also investigated the impact of a processing delay on HCV RNA concentration in these tubes. In NASTs, the mean HCV RNA concentration was comparable to the mean serum HCV RNA concentration at “date zero.” In EDTA tubes, mean baseline HCV RNA concentrations were higher. Storage at room temperature up to 96 h did not result in a decline of HCV RNA concentration in any of the whole blood collection tubes. In NASTs, HCV RNA concentrations remained stable during the whole study period, whereas a significant increase of HCV RNA was observed in both types of EDTA tubes at 96 h compared to date zero. We concluded that HCV RNA remains stable in NASTs at room temperature for at least 96 h, allowing greater flexibility in sample collection and transport.

An international multicenter study on HIV-1 drug resistance testing by 454 ultra-deep pyrosequencing

The detection of mutant spectra within the viral quasispecies is critical for therapeutic management of HIV-1 infections. Routine clinical application of ultrasensitive genotyping requires reproducibility and concordance within and between laboratories. The goal of the study was to evaluate a new protocol on HIV-1 drug resistance testing by 454 ultra-deep pyrosequencing (454-UDS) in an international multicenter study. Sixteen blinded HIV-1 subtype B samples were provided for 454-UDS as both RNA and cDNA with viral titers of 88,600-573,000 HIV-1 RNA copies/ml. Eight overlapping amplicons spanning protease (PR) codons 10-99 and reverse transcriptase (RT) codons 1-251 were generated using molecular barcoded primers. 454-UDS was performed using the 454 Life Sciences/Roche GS FLX platform. PR and RT sequences were analyzed using 454 Life Sciences Amplicon Variant Analyzer (AVA) software. Quantified variation data were analyzed for intra-laboratory reproducibility and inter-laboratory concordance. Routine population sequencing was performed using the ViroSeq HIV-1 genotyping system. Eleven laboratories and the reference laboratory 454 Life Sciences sequenced the HIV-1 sample set. Data presented are derived from seven laboratories and the reference laboratory since severe study protocol execution errors occurred in four laboratories leading to exclusion. The median sequencing depth across all sites was 1364 reads per position (IQR=809-2065). 100% of the ViroSeq-reported mutations were also detected by 454-UDS. Minority HIV-1 drug resistance mutations, defined as HIV-1 drug resistance mutations identified at frequencies of 1-25%, were only detected by 454-UDS. Analysis of 10 preselected majority and minority mutations were consistently found across sites. The analysis of drug-resistance mutations detected between 1 and 10% demonstrated high intra- and inter-laboratory consistency in frequency estimates for both RNA and prepared cDNA samples, indicating robustness of the method. HIV-1 drug resistance testing using 454 ultra-deep pyrosequencing results in an accurate and highly reproducible, albeit complex, approach to the analysis of HIV-1 mutant spectra, even at frequencies well below those detected by routine population sequencing.

Semiautomated Quantification of Hepatitis B Virus DNA in a Routine Diagnostic Laboratory

ABSTRACT The Cobas Amplicor HBV Monitor test for quantitative determination of hepatitis B virus (HBV) DNA in serum has recently been introduced. To evaluate the performance of this assay in a routine diagnostic laboratory, reproducibility of results was determined with the First European Union Concerted Action HBV Proficiency Panel and the Accurun 325 HBV DNA Positive Control, Series 300. Results for 270 routine serum samples were additionally evaluated. To avoid the retesting of a large number of samples due to titers exceeding the upper limit for the linear range of the assay, sera of patients with chronic hepatitis B (CHB) were diluted prior to the assay to 10−4 in normal human plasma, which is included in the assay. The mean coefficient of variation was 22.9% for all input HBV DNAs. Of 270 routine serum samples, 182 (150 sera from transplant donors and 32 sera from patients who had recovered from CHB) tested negative. Eighty-six sera were found to be HBV DNA positive; in six sera, HBV DNA levels were found to exceed the upper limit for the linear range of the assay and had to be retested. In the remaining two sera, inhibition occurred. The semiautomated Cobas Amplicor HBV Monitor test showed sufficient reproducibility and helped in avoiding human error. The relatively narrow linear range of detection is a limitation of the new assay.

Human immunodeficiency virus type 1 drug resistance testing: Evaluation of a new ultra-deep sequencing-based protocol and comparison with the TRUGENE HIV-1 Genotyping Kit.

Genotypic HIV-1 drug resistance testing with standard Sanger sequencing is limited to the detection of mutations with >20% prevalence. A new protocol for variant detection of protease and reverse transcriptase genes of HIV-1 genotype B samples with ultra-deep sequencing on the GS-FLX sequencer (Roche 454 Life Sciences, Branford, CT) was evaluated. The new technology was compared with the standard Sanger sequencing method. For accuracy testing, genotype B samples obtained from proficiency panels were examined with ultra-deep sequencing. Reproducibility was determined by repeat GS-FLX sequencing of 21 clinical samples. Clinical performance was evaluated with 44 samples and the results were compared to the TRUGENE HIV-1 Genotyping Kit (Siemens Healthcare Diagnostics, Tarrytown, NY). Sequences generated with both protocols were analyzed using the Stanford University HIV drug resistance database. When accuracy was tested, 316 of 317 mutation codons included in the analysis of proficiency panels could be identified correctly with ultra-deep sequencing. Reproducibility testing resulted in a correlation value of R(2)=0.969. Analysis of 44 routine clinical samples with the Stanford University HIV drug resistance database revealed a total number of 269 and 171 mutations by the ultra-deep and standard Sanger sequencing, respectively. Drug resistance interpretations showed differences for 11 samples. With ultra-deep sequencing, total time to result was four times longer in comparison to standard Sanger sequencing. Manual work was increased significantly using the new protocol. The ultra-deep sequencing protocol showed good accuracy and reproducibility. However, automation and shorter time to obtain results are essential for use in the routine diagnostic laboratory.

Determination of the hepatitis C virus subtype: comparison of sequencing and reverse hybridization assays.

Abstract Background: Hepatitis C virus (HCV) genotyping and accurate subtyping is becoming increasingly relevant to epidemiological studies, clinical management, pathogenicity, and vaccine development. Methods: The TRUGENE® HCV 5′NC Genotyping Kit, the new VERSANT® HCV Genotype 2.0 Assay (LiPA), and a new laboratory-developed HCV NS5b sequencing assay designed for automated sequencing of the HCV NS5b region were used. Clinical samples and a molecular diagnostics HCV genotyping proficiency program panel were used to determine accuracy and differentiate performance characteristics of the three methods. Results: All amplified samples from among the members of a HCV genotyping proficiency program panel that contained a single HCV genotype were subtyped correctly using all three HCV genotyping assays. With the TRUGENE® HCV 5′NC Genotyping Kit, the HCV subtype was determined in 357 of 441 of routine clinical samples. When the 84 samples with only genotype results were retested with the VERSANT® HCV Genotype 2.0 Assay (LiPA), 61 could be further subtyped accurately. With the new laboratory-developed HCV NS5b sequencing assay, all 84 could be subtyped accurately. Conclusions: The two new methods show advantages over the routinely used TRUGENE® HCV 5′NC Genotyping Kit in terms of genotyping and subtyping accuracy by utilizing part of the HCV core region and NS5b region, respectively. Clin Chem Lab Med 2007;45:167–70.

Evaluation of the new VERSANT HIV-1 RNA 1.0 Assay (kPCR) for quantitative detection of human immunodeficiency virus type 1 RNA

BACKGROUND The VERSANT HIV-1 RNA 1.0 Assay (kPCR) for quantitative detection of HIV-1 RNA has recently been introduced. OBJECTIVES In this study, the performance of the VERSANT HIV-1 RNA 1.0 Assay (kPCR) was evaluated and compared to the COBAS AmpliPrep/COBAS TaqMan HIV-1 Test, version 2.0. STUDY DESIGN Accuracy, linearity, interassay and intra-assay variations were determined, and a total of 196 routine clinical samples including a high number of HIV-1 subtype non-B samples were investigated. RESULTS When accuracy of the new kit was tested, all of the quantifiable results were found to be within -0.5log(10) unit of the expected panel results. Determination of linearity resulted in a quasilinear curve up to the initial concentration of 3.4x10(5)copies/mL. The interassay variation ranged from 12 to 20%, and the intra-assay variation ranged from 8 to 16%. When clinical samples were tested by the VERSANT HIV-1 RNA 1.0 Assay (kPCR) and the results were compared with those obtained by the COBAS AmpliPrep/COBAS TaqMan HIV-1 test, version 2.0, the results for 95% of all samples with positive results by both tests were found to be within +/-1.0log(10) unit. The viral loads for all samples measured by the Siemens and Roche assays showed a high correlation (R(2)=0.94); quantitative results obtained by the Siemens assay were usually found to be lower than those obtained by the Roche assay. CONCLUSIONS The new VERSANT HIV-1 RNA 1.0 Assay (kPCR) proved to be suitable for use in the routine diagnostic laboratory. The time to results was similar for both of the assays.

Ribavirin Levels and Haemoglobin Decline in Early Virological Responders and Non-Responders to Hepatitis C Virus Combination Therapy

Therapeutic drug monitoring of ribavirin has been claimed to predict virological response and/or haematological side effects in patients with chronic hepatitis C undergoing peginterferon/ribavirin combination treatment. In the present study, steady-state ribavirin levels were retrospectively analyzed in serum samples from patients at week 12 of combination therapy with peginterferon alpha-2a or alpha-2b and ribavirin. Patients were classified as early virological responders on the basis of undetectable HCV-RNA or HCV-RNA drop ≧2 log from baseline at week 12. The mean ribavirin level was not different between early virological responders (2.3 ± 0.1 µg/ml, n = 45) and early virological non-responders (2.0 ± 0.2 µg/ml, n = 10). There was no correlation between ribavirin levels at week 12 and early virological response. In patients with early virological response, haemoglobin (Hb) levels were found to be decreased by 18% on average from the basal values; however, in only 2 patients Hb levels declined below 100 g/l. There was a moderate negative correlation between ribavirin levels and Hb levels at week 12 (R = –0.50, p < 0.001); however, ribavirin levels did not correlate with relative or absolute decline in Hb as compared to basal levels or with ribavirin dose per kilogram body weight. In addition, a significant negative correlation between ribavirin levels and glomerular filtration rate was found (R = –0.31, p < 0.05). Based on our results, monitoring of ribavirin serum levels at week 12 of HCV combination therapy does not appear to predict early virological response or reductions in Hb levels. Further research is needed to assess their diagnostic value at other time points of peginterferon/ribavirin combination treatment and/or in patients with renal insufficiency.