Clinical evaluation of the COBAS Ampliprep/COBAS TaqMan for HCV RNA quantitation in comparison with the branched-DNA assay

Diagnosis and monitoring of HCV infection relies on sensitive and accurate HCV RNA detection and quantitation. The performance of the COBAS AmpliPrep/COBAS TaqMan 48 (CAP/CTM) (Roche, Branchburg, NJ), a fully automated, real-time PCR HCV RNA quantitative test was assessed and compared with the branched-DNA (bDNA) assay. Clinical evaluation on 576 specimens obtained from patients with chronic hepatitis C showed a good correlation (r = 0.893) between the two test, but the CAP/CTM scored higher HCV RNA titers than the bDNA across all viral genotypes. The mean bDNA versus CAP/CTM log10 IU/ml differences were -0.49, -0.4, -0.54, -0.26 for genotype 1a, 1b, 2a/2c, 3a, and 4, respectively. These differences reached statistical significance for genotypes 1b, 2a/c, and 3a. The ability of the CAP/CTM to monitor patients undergoing antiviral therapy and correctly identify the weeks 4 and 12 rapid and early virological responses was confirmed. The broader dynamic range of the CAP/CTM compared with the bDNA allowed for a better definition of viral kinetics. In conclusion, the CAP/CTM appears as a reliable and user-friendly assay to monitor HCV viremia during treatment of patients with chronic hepatitis. Its high sensitivity and wide dynamic range may help a better definition of viral load changes during antiviral therapy.     

Detection and quantitation of HCV RNA using real-time PCR after automated sample processing

There is considerable evidence that the loss of hepatitis C virus (HCV) RNA during the first 3 months of treatment with pegylated interferon plus ribavirin is a prognostic marker of response to therapy. Real-time polymerase chain reaction (PCR) assays for quantifying HCV RNA in plasma or serum are now commercially available. The extraction of HCV RNA can also be automated. This report analyses the performance of the COBAS Ampliprep-COBAS Taqman 48 (CAP/CTM) real-time PCR assay and compares this new test with the COBAS Amplicor HCV Monitor v 2.0 assay (CAM). CAP/CTM was 100% specific. The assay was linear across a wide range of HCV RNA concentrations without sample dilution. The intra-assay variation was 0.3-3.3% and the interassay variation was 1.5-6.7%. A total of 118 clinical samples with different HCV genotypes were assayed using both methods. The results obtained using the two methods were well correlated (r = 0.89, P < 0.001). The mean difference [CAP/CTM-CAM] was 0.17 log IU/ml and it was not influenced by the HCV genotype or by the subtype. It is concluded that the new CAP/CTM system is adequate for quantifying HCV RNA in clinical practice.     

Verification of an assay for quantification of hepatitis C virus RNA by use of an analyte-specific reagent and two different extraction methods

Protocols were designed for quantification and detection of hepatitis C virus (HCV) RNA by the use of an analyte-specific reagent (ASR) (Roche COBAS TaqMan48 [CTM48] HCV) after manual and automated RNA extraction. The purposes were to determine (i) assay performance characteristics using manual and automated RNA extraction methods, (ii) whether measurable range and limit of detection (LOD) of the ASR assay were influenced by genotype, and (iii) correlation of quantification by CTM48 HCV ASR and COBAS Monitor HCV v. 2.0. For HCV genotype 1 (Gt1), the lower limits of quantification after manual extraction were slightly lower than those for automated extraction (1.0 versus 1.5 log(10) IU/ml). Results were linear up to the highest concentration tested after extraction by both methods (manual, 6.1 log(10); automated, 6.4 log(10)). Similar results were obtained for Gt2 (1.8 to 6.8 log(10) IU/ml) and Gt3 (1.6 to 6.8 log(10) IU/ml) after automated extraction. The LOD of Gt1 virus was 10 IU/ml after manual extraction and between 25 and 37.5 IU/ml after automated extraction. Results with Gt2 and Gt3 viruses were similar after automated extraction (Gt2, between 25 and 50 IU/ml; Gt3, 25 IU/ml). Variability (intrarun and interrun, at concentrations throughout the range of quantification) was 相似文献   

Fully automated quantification of hepatitis C virus (HCV) RNA in human plasma and human serum by the COBAS AmpliPrep/COBAS TaqMan system.

BACKGROUND: HCV RNA is commonly recognized as key parameter for reliable diagnosis and treatment monitoring of HCV infection. Determination of blood HCV RNA concentrations reduces the pre-seroconversion period in the diagnosis of HCV infection and supports management of interferon alpha-based therapies of chronic HCV infection. OBJECTIVES AND STUDY DESIGN: The COBAS AmpliPrep/COBAS TaqMan HCV Test combines automated extraction of nucleic acids on the COBAS AmpliPrep Instrument with real-time PCR on the COBAS TaqMan Analyzer, thus greatly reducing hands-on time during sample preparation and amplification/detection. The test, which is calibrated to the 1st International HCV WHO Standard, was evaluated for sensitivity, dynamic range, precision, matrix equivalence, genotype inclusivity, interfering substances, diagnostic and analytical specificity, as well as for correlation with two other commercial tests for HCV RNA quantification. RESULTS: The COBAS AmpliPrep/COBAS TaqMan HCV Test demonstrated a >6-log dynamic range of 43-6.90 E+7 IU/mL, a sensitivity (95% hit rate) of at least 15 IU/mL for HCV WHO Standard and a comparable quantification of genotypes 1-6. HCV quantification results were in good correlation with those obtained by the COBAS AMPLICOR HCV MONITOR Test v2.0 and the VERSANT HCV RNA 3.0 test. CONCLUSIONS: The fully automated COBAS AmpliPrep/COBAS TaqMan HCV Test excellently accomplishes the requirements for highly sensitive detection and reliable quantification of HCV in clinical samples and thus improves therapy monitoring and management of HCV infection.     

Fully automated quantitation of hepatitis B virus (HBV) DNA in human plasma by the COBAS AmpliPrep/COBAS TaqMan system.

BACKGROUND: The measurement of HBV DNA levels has become the most direct and reliable method used for accurate diagnosis and prognosis of acute and chronic HBV infection []. Nucleic acid amplification testing (NAT detection) also reduces the pre-seroconversion window period. The method can be used to aid in the management of HBV infection, by the identification of individuals with high levels of viral replication who might benefit from antiviral therapy, monitoring patients on therapy, and identification of the development of resistance. OBJECTIVES: Evaluation of the novel COBAS AmpliPrep/COBAS TaqMan HBV Test, which combines automated extraction of DNA on the COBAS AmpliPrep Instrument (CAP), coupled with real-time PCR on the COBAS TaqMan Analyzer (CTM), thus greatly reducing hands-on time during sample preparation and amplification/detection. The assay fulfils the current requirements: a highly sensitive HBV DNA detection reagent which is calibrated to the International WHO Standard to reliably quantify HBV genotypes A-G in plasma with a very broad measuring range, thereby minimizing laborious repeat testing. STUDY DESIGN: The test was evaluated for sensitivity, dynamic range, precision, clinical and analytical specificity, genotype inclusivity, interfering substances, and correlation with other tests for the detection of HBV DNA (COBAS Amplicor HBV Monitor Test, COBAS TaqMan HBV Test for Use with the High Pure System and VERSANT HBV DNA 3.0 Assay). RESULTS AND CONCLUSION: A fully automated system for sample preparation, amplification and quantitation of HBV DNA was developed that demonstrates a nearly 7-log dynamic range up to 1.1E+08IU/mL, an assay sensitivity (95% hit-rate) of 4-12IU/mL and an equivalent detection of genotypes A-G plus a prevalent pre-core mutant. The results obtained with the new test show a good correlation to titers obtained with other platforms.     

Impact of hepatitis C virus (HCV) genotypes on quantification of HCV RNA in serum by COBAS AmpliPrep/COBAS TaqMan HCV test, Abbott HCV realtime assay [corrected] and VERSANT HCV RNA assay

The VERSANT HCV RNA 3.0 (bDNA), COBAS AmpliPrep/COBAS TaqMan HCV, and Abbott ART HCV RealTime assays were compared for hepatitis C virus RNA quantification in 158 clinical specimens (genotypes 1 to 5). RNA values differed significantly between methods (P < 0.0001), and mean titer differences ranged from 0.01 to 0.50 log(10) IU/ml depending on the genotypes.     

Assessment of viral loads in patients with chronic hepatitis C with AMPLICOR HCV MONITOR version 1.0, COBAS HCV MONITOR version 2.0, and QUANTIPLEX HCV RNA version 2.0 assays

The correlation between response to antiviral therapy and pretreatment viral load in patients with chronic hepatitis C has prompted the development of quantitative assays to measure viral load. The aim of our study was to assess the clinical relevance of the newly developed semiautomated PCR system COBAS HCV MONITOR version 2.0 in comparison with (i) the AMPLICOR HCV MONITOR version 1.0 assay, which underestimates RNA concentration of hepatitis C virus (HCV) genotypes 2 to 6, and (ii) the QUANTIPLEX HCV RNA version 2.0 assay, which achieves equivalent quantification for each HCV genotype, with samples from 174 patients diagnosed with chronic hepatitis C before therapy. The level and range of quantification measured with AMPLICOR HCV MONITOR version 1.0 were 1 log lower than when measured with the COBAS HCV MONITOR version 2.0, at 0.261 x 10(6) RNA copies/ml (range, 0.001 x 10(6) to 2.50 x 10(6) RNA copies/ml) and 4.032 x 10(6) RNA copies/ml (range, 0.026 x 10(6) to 72.6 x 10(6) RNA copies/ml), respectively. The two assays showed a poor correlation (r(2) = 0.175). The level and range of quantification were similar when measured with the COBAS HCV MONITOR version 2.0 and QUANTIPLEX HCV RNA version 2.0 assays, at 3.03 x 10(6) RNA copies/ml (range, 0.023 x 10(6) to 72.6 x 10(6) RNA copies/ml) and 4.91 Meq/ml (range, 0.200 to 49.5 Meq/ml), respectively. The two assays showed a strong correlation (r(2) = 0. 686) for each HCV genotype. The duration of treatment (6 or 12 months) is modulated according to HCV genotype and viral load. Our results indicate that COBAS HCV MONITOR version 2.0 and QUANTIPLEX HCV RNA version 2.0 assays showing an equal dynamic range for each HCV genotype are suitable tools to assess patients before therapy.     

Performance characteristics of the COBAS Amplicor Hepatitis C Virus (HCV) Monitor, Version 2.0, International Unit assay and the National Genetics Institute HCV Superquant assay

The COBAS Amplicor Hepatitis C Virus (HCV) Monitor assay, version 2.0, which reports in international units per milliliter, was compared to the assay reported in copies per milliliter by analyzing dilution series and clinical plasma samples by both methods. In addition, the Amplicor international unit assay was compared to the National Genetics Institute HCV Superquant assay. The dilution series ranged from <100 to 5,000,000 HCV RNA copies/ml and consisted of 32 points, assayed in triplicate in each assay. Thirty clinical samples ranging from 1,000 to 1,000,000 HCV RNA copies/ml were assayed in duplicate. Deming regression analysis comparing the Amplicor HCV RNA international units-per-milliliter and copies-per-milliliter assays was calculated as follows: (Amplicor international units per milliliter) = 1.030(Amplicor copies per milliliter) - 0.392; R(2) = 0.981; n = 28; S(y/x) (standard error of the estimate) = 0.129. The linearity of the Amplicor international units-per-milliliter assay was as follows: observed = 0.886(expected) + 0.437; R(2) = 0.983; n = 30. The linearity of the Superquant assay was as follows: observed= 0.918 (expected) + 0.436; R(2) = 0.986; n = 32. Deming regression analysis comparing the Amplicor and Superquant assays was calculated as follows: Superquant = 1.066(Amplicor) - 0.0197; R(2) = 0.908; S(y/x) = 0.308; n = 28. The Amplicor and Superquant assays were linear through the range of 600 to 600,000 IU of HCV RNA/ml and approximately 300 to 5,000,000 HCV RNA copies/ml, respectively. The narrow range of the Amplicor assay means that some samples will require dilution and retesting for accurate quantification above 600,000 IU of HCV RNA/ml. The Amplicor and Superquant assays agreed well within the range of 600 to 600,000 IU of HCV RNA/ml (approximately 1,000 to approximately 1,000,000 HCV RNA copies/ml). Overall, the Amplicor and Superquant assays agree well, and results obtained in one assay could be expected to compare well with results from the other when reported in copies per milliliter.     

Necessity for Reassessment of Patients with Serogroup 2 Hepatitis C Virus (HCV) and Undetectable Serum HCV RNA

We encountered a patient positive for anti-hepatitis C virus (HCV) whose serum HCV RNA was undetectable with the Roche AmpliPrep/Cobas TaqMan HCV assay (CAP/CTM) version 1 but showed a high viral load with the Abbott RealTime HCV assay (ART). Discrepancies in the detectability of serum HCV RNA were investigated among 891 consecutive patients who were positive for anti-HCV. Specific nucleotide variations causing the undetectability of HCV RNA were determined and confirmed by synthesizing RNA coding those variations. Serum samples with the discrepancies were also reassessed by CAP/CTM version 2. Among the 891 anti-HCV-positive patients, 4 patients had serum HCV RNA levels that were undetectable by CAP/CTM version 1 despite having levels of >5 log IU/ml that were detected by ART. All four patients had HCV genotype 2a and high titers of anti-HCV. Sequencing of the HCV 5′ noncoding regions revealed 2 common variations, A at nucleotide (nt) 145 and T at nt 151. Synthesized RNAs of the HCV 5′ noncoding region with standard (NCR145G151C) and variant nucleotides at nt 145 and nt 151 were quantified with CAP/CTM. RNAs of NCR145G151C and NCR145G151T were quantifiable with CAP/CTM version 1, while those of NCR145A151T and NCR145A151C went undetected. The substitution from G to A at nt 145 specifically conferred this undetectability, while this undetectability was reverted in synthesized HCV RNA with correction of this variation. Reassessment of these samples by CAP/CTM version 2 resulted in similar levels of HCV RNA being detected by ART. We conclude that HCV patients with undetectable HCV RNA by CAP/CTM version 1 should be reassessed for viral quantification.     

Evaluation of the COBAS® AmpliPrep/COBAS® TaqMan® HCV Test,v2.0 and comparison to assays used in routine clinical practice in an international multicenter clinical trial: The ExPECT study

BackgroundThe COBAS^® AmpliPrep^®/COBAS^® TaqMan^® HCV Test, v2.0 (CAP/CTM2) is used for HCV RNA viral load monitoring.ObjectivesThe performance of the CAP/CTM2 was compared to other widely used tests, including a manual version of the assay (the COBAS^® TaqMan^® HCV Test, v2.0 for use with the High Pure System, HPS/CTM2) predominantly used during phase III clinical trials for the new direct acting antiviral therapies.Study designLow HCV RNA level comparisons were performed across tests (Abbott Realtime HCV Test, ART; COBAS^® AmpliPrep^®/COBAS^® TaqMan^® HCV Test, v1.0, CAP/CTM1; CAP/CTM2; and HPS/CTM2) using dilutions of the 2nd HCV WHO International Standard. Additionally, the clinical performance of the CAP/CTM2 was evaluated with 421 leftover HCV RNA-positive routine clinical samples.ResultsAll quantifiable WHO dilutions were within ±0.3 log₁₀ IU/mL of the expected results across tests and the analytical sensitivity resulted in a limit of detection of 12 IU/mL (95% confidence interval, 10, 15). When clinical samples were tested the results for 87% (367 of 421) of all sample comparisons were within ±0.5 log₁₀ IU/mL. When low viral load results (25–3500 IU/mL) were compared, values obtained by the ART assay were significantly lower (p < 0.0001) than those obtained with the CAP/CTM2.ConclusionsThe new CAP/CTM2 showed good accuracy with comparable sensitivity to comparator assays. The new kit is well-suited for use in the routine diagnostic laboratory, especially for accurate monitoring of patients receiving triple therapy or interferone-free regimens.     

The Cobas AmpliPrep/Cobas TaqMan HCV Test,Version 2.0, Real-Time PCR Assay Accurately Quantifies Hepatitis C Virus Genotype 4 RNA

Accurate hepatitis C virus (HCV) RNA quantification is mandatory for the management of chronic hepatitis C therapy. The first-generation Cobas AmpliPrep/Cobas TaqMan HCV test (CAP/CTM HCV) underestimated HCV RNA levels by >1-log₁₀ international units/ml in a number of patients infected with HCV genotype 4 and occasionally failed to detect it. The aim of this study was to evaluate the ability of the Cobas AmpliPrep/Cobas TaqMan HCV test, version 2.0 (CAP/CTM HCV v2.0), to accurately quantify HCV RNA in a large series of patients infected with different subtypes of HCV genotype 4. Group A comprised 122 patients with chronic HCV genotype 4 infection, and group B comprised 4 patients with HCV genotype 4 in whom HCV RNA was undetectable using the CAP/CTM HCV. Each specimen was tested with the third-generation branched DNA (bDNA) assay, CAP/CTM HCV, and CAP/CTM HCV v2.0. The HCV RNA level was lower in CAP/CTM HCV than in bDNA in 76.2% of cases, regardless of the HCV genotype 4 subtype. In contrast, the correlation between bDNA and CAP/CTM HCV v2.0 values was excellent. CAP/CTM HCV v2.0 accurately quantified HCV RNA levels in the presence of an A-to-T substitution at position 165 alone or combined with a G-to-A substitution at position 145 of the 5′ untranslated region of HCV genome. In conclusion, CAP/CTM HCV v2.0 accurately quantifies HCV RNA in genotype 4 clinical specimens, regardless of the subtype, and can be confidently used in clinical trials and clinical practice with this genotype.     

Fully automated quantification of human immunodeficiency virus (HIV) type 1 RNA in human plasma by the COBAS AmpliPrep/COBAS TaqMan system.

BACKGROUND: HIV-1 RNA is a key parameter for reliable diagnosis and treatment of HIV-1 infection. The determination of HIV-1 RNA reduces the pre-seroconversion period in the diagnosis of HIV-1 infection and supports clinical management of HIV-1-infected patients. OBJECTIVES AND STUDY DESIGN: The COBAS AmpliPrep/COBAS TaqMan HIV-1 Test combines automated extraction of total nucleic acids on the COBAS AmpliPrep Instrument with real-time PCR on the COBAS TaqMan Analyzer, thus greatly reducing hands-on time during sample preparation and amplification/detection. The test was evaluated for sensitivity, dynamic range, precision, subtype inclusivity, interfering substances, diagnostic and analytical specificity, as well as correlation with three other commercial tests for HIV-1 RNA quantification. RESULTS: The COBAS AmpliPrep/COBAS TaqMan HIV-1 Test demonstrated an assay sensitivity of 40 copies/mL, a greater than 5 log(10) measuring range of 40-1.0E+07 copies/mL (1.6-7.0 log(10)) and a reliable determination of HIV-1 group M and N subtypes in EDTA plasma. Quantification results were highly correlated with those obtained by the COBAS AMPLICOR HIV-1 MONITOR Test v1.5, the COBAS AmpliPrep/COBAS AMPLICOR HIV-1 MONITOR Test v1.5 and the VERSANT HIV-1 RNA 3.0 assay. CONCLUSIONS: The COBAS AmpliPrep/COBAS TaqMan HIV-1 Test excellently satisfies the requirements for reliable quantification of HIV-1 RNA in clinical specimens by a broad linear measuring range and a fully automated quantification procedure. It is highly appropriate for therapy monitoring and routine management of HIV-1 infection.     

Performance of an automated system for quantitation of hepatitis C virus core antigen

The performance of an automated system for the HCV core antigen assay using the Lumispot LS-2000 automated analyzer was evaluated against that of the COBAS AMPLICOR HCV MONITOR Test, version 2.0 (COBAS HCM-2) for the testing of sera from 155 chronic hepatitis C patients. The within-run coefficient of variations (CVs) and the between-day CVs were <9.6 and <8.4%, respectively. The analytical detection limit of the HCV core antigen assay was 5.0 fmol/l and it was linear up to at least 45000 fmol/l. No blood elements interfered with the assay. HCV core antigen levels were significantly correlated with HCV RNA levels in both serogroup 1 and serogroup 2 (r=0.829, P<0.001). It is estimated that 100 fmol/l of HCV core antigen level was equivalent to approximately 30000 IU/ml of HCV RNA level. Three sera had HCV core antigen levels below the detection limit of the assay and their HCV RNA levels as determined by COBAS HCM-2 assay were very low at 1000, 1100 and 1700 IU/ml, respectively. In six IFN responders among seven patients, HCV core antigen levels were in parallel with HCV RNA levels. In conclusion, since this assay demonstrated good reproducibility, a favorable dynamic range and adequate sensitivity, it may be useful as an alternative direct marker of viral level monitoring in patients with hepatitis C.     

Evaluation of the COBAS TaqMan HCV test with automated sample processing using the MagNA pure LC instrument

The COBAS TaqMan HCV Test (TaqMan HCV; Roche Molecular Systems Inc., Branchburg, N.J.) for hepatitis C virus (HCV) performed on the COBAS TaqMan 48 Analyzer (Roche Molecular Systems) currently relies on a manual sample processing method. Implementation of an automated sample processing method would facilitate the clinical use of this test. In this study, we evaluated the performance characteristics of TaqMan HCV following automated sample processing by the MagNA Pure LC instrument (MP; Roche Applied Science, Indianapolis, Ind.). The analytical sensitivity of TaqMan HCV following sample processing by MP was 8.1 IU/ml (95% confidence interval, 6.1 to 15.2). The assay showed good linearity (R(2) = 0.99) across a wide range of HCV RNA levels (25 to 5 x 10(6) IU/ml), with coefficients of variation ranging from 10% to 46%. Among 83 clinical specimens, the sensitivity and specificity of TaqMan HCV were 100% and 95%, respectively, when compared to the COBAS AMPLICOR hepatitis C virus test, version 2.0 (COBAS AMPLICOR; Roche Molecular Systems), with TaqMan HCV detecting two more HCV RNA-positive specimens than COBAS AMPLICOR. Both specimens were confirmed to be HCV RNA positive by the VERSANT HCV RNA qualitative test (Bayer HealthCare LLC, Tarrytown, N.Y.). There was also strong correlation (R(2) = 0.95) and good agreement between the results from TaqMan HCV and the VERSANT HCV RNA 3.0 assay (bDNA) (Bayer HealthCare LLC) among a group of 93 clinical specimens. The MP is a versatile, labor-saving sample processing platform suitable for reliable performance of TaqMan HCV.     

Abbott RealTime Hepatitis C Virus (HCV) and Roche Cobas AmpliPrep/Cobas TaqMan HCV Assays for Prediction of Sustained Virological Response to Pegylated Interferon and Ribavirin in Chronic Hepatitis C Patients

Two commercial real-time PCR assays are currently available for sensitive hepatitis C virus (HCV) RNA quantification: the Abbott RealTime HCV assay (ART) and Roche Cobas AmpliPrep/Cobas TaqMan HCV assay (CAP/CTM). We assessed whether the two real-time PCR assays were more effective than Roche Cobas Amplicor HCV Monitor test, v.2.0 (CAM) for prediction of the sustained virological response (SVR) to pegylated interferon (PEG-IFN) plus ribavirin (RBV) in chronic hepatitis C. Sixty patients chronically infected with HCV genotype 1b (37 males and 23 females, 53 ± 12 years of age) were treated with PEG-IFNα2b plus RBV for 48 weeks. Stored specimens at nine time points for each patient (at baseline, on treatment, and 24 weeks after treatment) were tested by the two real-time PCR assays and CAM. Twenty-six (43.3%) patients reached SVR. The positive predictive values (PPVs) for SVR of undetectable HCV RNA at week 12 by CAM, ART, and CAP/CTM were 74.3%, 88.0%, and 95.2%, respectively. An undetectable HCV RNA level by CAM, ART, and CAP/CTM correctly predicted SVR at week 4 in 100%, 100%, and 100% of patients, at weeks 5 to 8 in 91.7%, 100%, and 100% of patients, at weeks 9 to 12 in 55.6%, 75%, and 87.5% of patients, and at weeks 13 to 24 in 0%, 26.7%, and 40% of patients, respectively. Of 16 patients who relapsed after treatment, HCV RNA was detectable in 2 patients at the end of treatment by CAP/CTM but undetectable by ART and CAM. HCV RNA tests using ART and CAP/CTM are considered to be more effective at predicting SVR than CAM, and the PPV for SVR was slightly higher in CAP/CTM than in ART.     

Evaluation of the MagNA pure LC instrument for extraction of hepatitis C virus RNA for the COBAS AMPLICOR Hepatitis C Virus Test,version 2.0

The COBAS AMPLICOR system has played a major role in the transition of molecular diagnostics from research to routine clinical laboratory use by automating the nucleic acid amplification and detection processes. However, sample preparation remains a labor-intensive portion of the procedure. In this study, we evaluated the performance of the COBAS AMPLICOR Hepatitis C Virus Test, version 2.0 (Roche Molecular Systems, Branchburg, N.J.) following manual hepatitis C virus (HCV) RNA extraction versus automated extraction with the MagNA Pure LC instrument (Roche Applied Science, Indianapolis, Ind.). Parallel replicate testing was performed with standard dilutions of 100, 75, 60, and 0 HCV IU/ml and 153 clinical specimens. An analytical sensitivity of 75 IU/ml was achieved with either the manual or the standard-volume (200 microl) automated extraction methodologies (25 of 26 [96.2%]; 95% confidence interval [95% CI], 80.4 to 99.9), whereas the clinical sensitivity and specificity were both 100% with either extraction method. A large-volume (1 ml) automated extraction method was also evaluated with standard dilutions of 40, 25, 10, and 0 IU/ml and the same 153 clinical specimens. The analytical sensitivity of the COBAS AMPLICOR assay with the large-volume extraction method was 25 HCV IU/ml (26 of 26 [100%]; 95% CI, 86.8 to 100), whereas the clinical sensitivity and specificity were both 100%. The MagNA Pure LC instrument is a versatile, labor-saving platform capable of integration with minimal modification of the existing assay procedure. The increased sensitivity of the COBAS AMPLICOR Hepatitis C Virus Test, version 2.0 performed in conjunction with large-volume HCV RNA extraction may be important in HCV diagnostic testing as new therapeutic strategies evolve.