Comparison of the AdvanSure HBV Real-time PCR Test with Three Other HBV DNA Quantification Assays

230 Available online at www.annclinlabsci.org Annals of Clinical & Laboratory Science, vol. 43, no. 2, 2013 Comparison of the AdvanSure HBV Real-time PCR Test with Three Other HBV DNA Quantification Assays Hyunjung Kim, Soyoung Shin, Eun-Jee Oh, Jimin Kahng, Yonggoo Kim, Hae Kyung Lee, and Hi Jeong Kwon Department of Laboratory Medicine, College of Medicine, The Catholic University of Korea, Republic of Korea Abstract. Background: We compared the AdvanSure hepatitis B virus real-time polymerase chain reaction (AdvanSure HBV) kit with three other HBV DNA quantification assays and evaluated its performance. Methods:The AdvanSure HBV real-time PCR assay was compared with the Abbott RealTime HBV Quantification Kit, the COBAS TaqMan HBV Test, and the VERSANT HBV branched DNA 3.0 assay. The precision, linearity, accuracy, limit of detection (LOD), cross reactivity, and genotype inclusivity of the assays were compared, and any influence of the sampling tube type was evaluated. Results: The AdvanSure HBV PCR showed good correlations with the three other HBV DNA assays. The R 2 coefficients were 0.944, 0.939, and 0.921 with the Abbott RealTime HBV Quantification Kit, the COBAS TaqMan HBV Test, and the VERSANT bdna 3.0 assay, respectively. Linearity was good in the tested range of 1.15-8.45 log 10 IU/ml. The lower LOD result was consistent with the 18 IU/ml claimed by the manufacturer. HBV genotypes A-F were all correctly amplified, and no cross reactivity was found in samples with high HCV RNA levels or high protein concentrations. The results were not influenced by the sample preparation tube (i.e. plain tube, SST, and EDTA containing tubes). Conclusion: The AdvanSure HBV real-time PCR assay is a reliable method for quantifying HBV DNA levels in routine laboratory testing. Key words: hepatitis B virus; DNA quantification; real-time PCR; AdvanSure Introduction Current consensus guidelines recommend determining the level of hepatitis B virus (HBV) DNA to characterize the course of chronic HBV infection, to determine treatment, and to demonstrate the effects of antiviral drugs on HBV replication [1, 2]. Serum HBV-DNA quantification plays an important role in detecting an emergence that might be resistant to antiviral treatment, and in evaluating the risk factors for cirrhosis and the progression of hepatocellular carcinoma [3]. Various commercial polymerase chain reaction (PCR) assays for quantifying HBV DNA are available. These include the VERSANT HBV bdna 3.0 Assay (Siemens Healthcare, New York, USA) using branched DNA (bdna) technology, and the Digene HBV Hybrid-Capture II (Murex Address correspondence to Hae Kyung Lee, M.D., Ph.D., Department of Laboratory Medicine, Uijeongbu St. Mary s Hospital, 65-1 Kumohdong, Uijeongbu, Kyunggido 480-717, Republic of Korea; phone: +82 31 820 3159; fax: +82 31 847 6266; e mail: hkl@catholic.ac.kr Diagnostics, Dartford, Kent, UK). Hybridization methods and endpoint PCR-based assays have proved useful in measuring the upper range of HBV viremia, but they lack the sensitivity to detect low levels of HBV DNA and have relatively narrow detection ranges [4, 5]. The real-time PCR assays have improved the sensitivity and detection range of viral measurements significantly. The COBAS TaqMan HBV Test (Roche Molecular Systems, Branchburg, NJ, USA), Abbott RealTime HBV Quantification Kit (Abbott Molecular Inc., USA), and AccuPower HBV Quantitative PCR Kit (Bioneer Corp., Daejeon, S. Korea) are real-time PCR assays commonly used in HBV DNA measurement. Some HBV DNA assays use coupled automation instruments for DNA extraction, but automatic DNA extraction using magnetic beads might be inefficient for removing particular inhibitors (e.g., clot activators). In our experience, the incomplete removal of clot activators sometimes inhibits PCR reactions; in such cases, only plain red top tubes could be safely used. 0091-7370/13/0200-230. 2013 by the Association of Clinical Scientists, Inc.

Evaluation of AdvanSure HBV real-time PCR 231 Table 1. Characteristics of four HBV DNA quantification tests provided by the manufacturers AdvanSure VERSANT Abbott COBAS Principle Real-time PCR Branched DNA method Real-time PCR Real-time PCR (signal amplification) Detection range 20 4 10 9 IU/ml 2000 10 10 8 copies/ml 10 10 10 9 IU/m 20 10 10 8 IU/ml (357 1.8 10 8 IU/ml) Genetic detection A H A H A H A H range Quality control Three standards, PC, 10 standards, PC, NC NC, LP, HP NC, LP, HP NC Abbreviations: AdvanSure, LG AdvanSure HBV real-time PCR assay; VERSANT, VERSANT HBV bdna 3.0 Assay; Abbott, Abbott RealTime HBV Quantification assay; COBAS, Roche COBAS TaqMan HBV assay; PC, positive control; NC, negative control; LP, low positive control; HP, high positive control. The AdvanSure HBV real-time PCR assay (LG Life Sciences, Ltd., Seoul, S. Korea) is a new method using TaqMan chemistry [6]. The aim of this study was to compare its performance with that of commercially available HBV DNA quantification assays and to validate it for detecting and quantifying HBV DNA. Materials and Methods Clinical serum samples were prepared from patients with acute or chronic hepatitis B who visited Uijeongbu St. Mary s Hospital, the Catholic University of Korea. Between June 2009 and May 2010, 150 patients were enrolled. Serum samples were collected from the patients using serum separator tubes (SSTs). EDTA treated plasma samples and plain tube samples were also collected from 48 of the patients. The samples were stored at -70 C. Informed consent was obtained from all patients and the study was approved by the Institutional Review Board of the Catholic Medical Center (IRB number: XC10SSM10011U). The dilution solution used pooled serum from clinical samples, which were hepatitis B surface (HBs) antigen negative, HBe antigen and antibody negative, and negative in the AdvanSure HBV real-tme PCR assay. The AdvanSure HBV real-time PCR assay. HBV DNA was extracted using an automated LabTurbo 36 compact system (TAIGEN Bioscience Corp., Taiwan) that uses vacuum membrane column technology, and manually using QIAamp MinElute Virus Spin kits (QIAGEN, Valencia, CA, USA). The LabTurbo 36 compact system (coupled with the LG Advansure HBV real-time PCR) processes 36 samples in 80 minutes and is a fully automated system for purifying nucleic acids from raw materials. In this system, the appropriate membrane porosity makes it easy to trap the DNA/RNA and to wash off contaminants effectively with a consistent vacuum system and a Column Clean Elution Buffer. The AdvanSure HBV real-time PCR system utilizes TaqMan chemistry [6]. The HBV primers were designed for the precore region of the HBV genome. The assay was standardized against the WHO International Standard for Hepatitis B Virus DNA (NIBSC Code 97/746), and requires 250-300 µl of human serum or plasma samples. Ten microliter aliquots of extracted HBV viral DNA (or calibration standards 1, 2, and 3, a positive control, and a negative control) were mixed with 20 µl of the HBV PCR master mix. The LG AdvanSure realtime PCR system has 48 wells and the running time is 140 min. Comparison of the AdvanSure HBV real-time PCR with three other commercial HBV PCR tests. The results of the AdvanSure HBV real-time PCR(Advansure QPCR) were compared with results from three other HBV DNA assays: the Abbott RealTime HBV Quantification Kit (Abbott QPCR; n=101), the Roche COBAS TaqMan HBV assay (COBAS TaqMan; n=88), and the VERSANT bdna assay (VERSANT bdna; n=138). Not all samples were tested with all four assays because of small sample amounts. The VERSANT bdna assay uses a signal amplification method,

232 Annals of Clinical & Laboratory Science, vol. 43, no. 2, 2013 Table 2. Comparison of four HBV DNA quantification tests P N P N P N (Abbott) (Abbott) (COBAS) (COBAS) (bdna) (bdna) AdvanSure P 90 5 79 4 107 20 N 0 6 1 4 1 10 Total in each group 101 88 138 Abbreviations: AdvanSure, LG AdvanSure HBV real-time PCR assay; Abbott, Abbott RealTime HBV Quantification assay; COBAS, Roche COBAS TaqMan HBV assay; bdna, VERSANT HPV bdna 3.0 Assay; P, positive; N, negative. with a solid-phase, sandwich hybridization assay, incorporating multiple sets of synthetic oligonucleotide probes. The Abbott QPCR and COBAS TaqMan assays are both real-time PCR methods. Analyses were performed according to the manufacturers specifications. The characteristics, including the principles used and the linear detection limit of each assay, are summarized in Table 1. Performance evaluation of the AdvanSure QPCR. Precision. Precision was evaluated using pooled sera with low (4.38 10 2 IU/ml ) and high (3.43 10 6 IU/ml) concentrations measured by the AdvanSure QPCR. Interassay variability was determined by testing the HBV concentrations at two levels for 20 consecutive days, and the intra-assay variability was determined from duplicate tests. Linearity. Linearity was evaluated using an HBVpositive clinical specimen (2.7 10 8 IU/ml, by AdvanSure QPCR) diluted directly (i.e., not serially) into nine concentrations with HBV- negative serum. The investigated samples were quantified twice. Accuracy. Accuracy was evaluated using the HBV DNA PHD801 Panel (BBI Diagnostics, West Bridgewater, MA, USA). This panel consists of one negative and nine positive samples, and the tests were quantified twice. Limit of detection (LOD). The limit of detection (LOD) was determined using the WHO International Standard for HBV, which was directly diluted with HBV- negative serum, resulting in five concentration levels (i.e. 10, 20, 40, 60, and 100 IU/ml). For each concentration level, the percent positivity was calculated for five repeated tests. Cross Reactivity. Cross reactivity was evaluated using the COBAS TaqMan HCV test on pooled serum samples with high HCV RNA levels (46,350,000 IU/ml) and on pooled samples with high protein levels (total protein 9.7 mg/dl) of HBV-negative samples. Ten HBV- negative samples (as assessed using the AdvanSure QPCR) were mixed 1:1 with high HCV RNA and high total protein sera, respectively. After mixing, each of the 10 samples was tested using the AdvanSure QPCR. Genotype inclusivity. The HBV DNA Genotype Performance Panel PHD201 (BBI Diagnostics, MA 02379, USA) was used for testing genotype inclusivity. These panels consist of eight positive members genotypes A (three kinds), B, C, D, E, and F and one negative member. Matrix effect from the sample collection tubes. Samples collected with different sampling tubes were tested to analyze any interference (e.g., from clot activators) in this study. The results of HBV DNA from EDTA treated plasma, SST collected, and plain tube collected serum samples from the same patient were compared. Forty-eight samples were tested to evaluate the potential matrix effect of interference produced by the sample collection type. Statistical Analysis Any correlation between paired commercial methods was tested by determining Pearson correlation

Evaluation of AdvanSure HBV real-time PCR 233 (six samples were below the lower LOD, and 90 samples showed positive results in both assays). The positive samples were within the range of 1.43-8.42 log 10 IU/ml in the AdvanSure QPCR. The R 2 coefficient was 0.944 (P < 0.001) and the mean difference (AdvanSure QPCR - Abbott QPCR ± SD) was 0.65 ± 0.46 log 10 IU/ml. Five samples were under the lower LOD (<10 IU/ml) with the Abbott QPCR but showed HBV concentrations of 39-189 IU/ml with the AdvanSure QPCR. Figure 1. Comparison of results between the AdvanSure HBV real-time PCR assay, the Abbott RealTime HBV Quantification assay, the Roche COBAS TaqMan HBV assay and the VERSANT bdna assay. Figure 2. Linearity of the AdvanSure HBV real-time PCR assay, using nine levels of HBV DNA concentrations (1.15 8.45 log 10 IU/ml). (Units: Log 10 HBV DNA IU/ml). Expected HBV DNA: calculated HBV concentration based on dilutions of a clinical specimen (2.7 10 8 IU/ml) measured by the AdvanSure HBV QPCR. coefficients and by linear regression analysis: P < 0.05 was considered significant. The mean differences between other tests were determined using Bland-Altman plots. Results Comparison of AdvanSure QPCR with three commercial HBV PCR tests (Figure 1, Table 2). The qualitative agreement rate of AdvanSure QPCR and Abbott QPCR (n=101) was 95.0% The qualitative agreement rate of AdvanSure QPCR and COBAS TaqMan (n=88) was 94.3% (four samples were under the lower LOD, and 79 samples showed positive results in both assays). The positive samples were within the range of 0.93-8.35 log10 IU/ml in the AdvanSure QPCR. The R 2 coefficient was 0.939 (P < 0.001) and the mean difference (AdvanSure QPCR - COBAS TaqMan ± SD) was -0.27 ± 0.44 log 10 IU/ml. The qualitative agreement rate of AdvanSure QPCR and the VERSANT bdna (n=138) was 84.8% (10 samples were under the lower LOD, and 107 samples showed positive results in both assays). The positive results were within the range of 0.71-8.45 log 10 IU/ml in the AdvanSure QPCR. The R 2 was 0.921 (P < 0.001) and the mean difference (AdvanSure QPCR - VERSANT bdna results ± SD) was - 0.56 ± 0.65 log 10 IU/ ml. Twenty samples with results under the lower LOD (<357 IU/ml) of the VERSANT bdna showed positive results with the AdvanSure QPCR (21-214 IU/ml). Fifteen of the 107 positive samples in both assays showed results over the upper LOD (>1 x 10 8 IU/ml) with VERSANT bdna but showed measurable results with the AdvanSure QPCR (6.81-8.45 log 10 IU/ml). One patient s sample tested negative (HBV DNA levels below the lower LOD) in three assays, but gave a positive result in the VERSANT bdna test. Though the HBV DNA levels of two patients exceeded the upper LOD of both the VERSANT bdna and COBAS TaqMan assays, they appeared measurable in the AdvanSure QPCR and Abbott QPCR systems. Discrepancies between the various HBV DNA assays were found mainly at lower concentrations (Table 3).

234 Annals of Clinical & Laboratory Science, vol. 43, no. 2, 2013 Table 3. Patient samples that showed discrepancies in paired comparisons among four HBV DNA assays (Unit: IU/ml) Sample Age Sex HBsAg HBsAb HBeAg HBeAb HBcIgM HBcIgG No. Advan VER Abbott COBAS Sure SANT 18 44 M NT NT n p NT NT 24 <357 NT NT 25 38 M NT NT n p NT NT 46 <357 NT NT 41 65 F NT NT n p NT NT 22 <357 NT NT 45 42 M NT. NT n p NT NT 23 <357 NT NT 48 49 M n 1.27 n p NT NT 116 <357 NT NT 50 39 M NT NT n p 2.42 50 35 <357 NT NT 58 72 F NT NT n p NT NT 35 <357 21 856 75 55 M NT NT n p NT NT 186 <357 <10 90 78 55 M NT NT n n NT NT 30 <357 5 200 94 56 M NT NT n p NT NT 60 436 10 <40 97 48 F 97.84 N n p n NT 214 <357 20 238 107 68 M 100.76 N n p NT NT 149 <357 85 165 108 41 M NT NT 59.35 n NT NT 32,950 75,286 4,450 79400 118 58 M NT NT n p NT NT 51 <357 124 <40 121 54 M NT NT 33.92 NT NT 43 <357 16 58 129 50 M NT NT 2.05 n NT NT 99140000 17,857,143 <10 NT 140 43 M 76.18 N n p NT NT No Ct 368 <10 <40 145 60 F NT NT n p NT NT 52 741 50 <40 146 41 M NT NT n p NT NT 46 <357 116 294 147 57 M NT NT n p NT NT 83 <357 109 64 156 51 M 90.74 n n p NT NT 79 <357 56 334 * Only patients who had at least one positive serologic HBV marker result within one month before and after the HBV DNA sampling time are listed in this table. Abbreviations: AdvanSure, LG AdvanSure HBV real-time PCR assay; Versant, VERSANT HBV bdna 3.0 Assay; Abbott, Abbott RealTime HBV Quantification assay; COBAS, Roche COBAS TaqMan HBV assay; NT, not tested; p (or numeric results), positive results; n, negative results. Evaluation of the AdvanSure QPCR. Precision. The SD and coefficient of variation (CV) of intra-assay (within run) variability were 0.05 log 10 IU/ml and 2.4% at a low concentration (4.38 10 2 IU/ml) and 0.06 log 10 IU/ml and 0.75% at a high concentration (3.43 10 6 IU/ml). The SD and CV of interassay variability (between day precision) were 0.14 log 10 IU/ml and 5.7% at a low concentration and 0.16 log 10 IU/ml and 2.4% at a high concentration. Linearity. Nine HBV DNA levels (range 1.15-8.45 log 10 IU/ml) of clinical samples were used for the linearity test, and the Advansure QPCR showed good linearity in the tested range. The linear regression equation was y = 0.9977x + 0.3358, and the correlation coefficient was R 2 =0.997 (Figure 2). Accuracy. By using the HBV DNA Panel PHD801 (BBI Diagnostics, USA), one negative sample showed a negative result with the AdvanSure QPCR. The mean difference between the expected values and observed values of the nine samples tested was 0.59 log 10 IU/ml. The differences in each of the nine samples, expressed first as the expected value and second as the difference from the observed value measured by the AdvanSure QPCR, were (6.38, -0.16), (5.84, -0.26), (5.08, -0.61), (4.72, -0.71), (4.3, -0.78), (3.23, -0.9), and (2.15, -0.68). Limit of detection (LOD). All five repeated tests showed positive LOD results at expected values for the 20, 40, 60, and 100 IU/ml concentrations, and two of five tests showed positive results at 10 IU/ ml.

Evaluation of AdvanSure HBV real-time PCR 235 Table 4. Evaluation of HBV genotype inclusivity from the HBV DNA Genotype Performance Panel PHD201, using the AdvanSure HBV real-time PCR system. I.D. Expected HBV Genotype Mean of observed Difference (Expected DNA1 HBV DNA observed value) 2 PHD201-01 <300 Negative PHD201-02 3.46 A 3.49 0.03 PHD201-03 3.36 A 3.44 0.08 PHD201-04 3.46 B 2.52 0.94 PHD201-05 3.41 C 2.64 0.77 PHD201-06 3.38 D 2.52 0.87 PHD201-07 3.22 A 2.51 0.71 PHD201-08 3.56 E 3.12 0.44 PHD201-09 3.29 F 2.98 0.32 1Results using the COBAS TaqMan real-time kit provided by the manufacturer. 2Differences between expected and observed HBV DNA. Unit: log 10 IU/ml Cross Reactivity. All 10 HBV-negative samples that were mixed (1:1) with high HCV (46,350,000 IU/ml) serum and high-protein pooled serum (total protein 9.7 g/ml) samples showed negative results with the AdvanSure QPCR. Genotype inclusivity. The PHD201 (BBI Diagnostics, USA) panel consists of eight positive members and one negative member. One negative sample showed negative results and all other samples with HBV-DNA of A-F viral genotypes showed positive results with the AdvanSure QPCR (Table 4). Matrix effect by the sample collection tubes. There were no significantly different results according to the sample preparation tubes: as measured by the AdvanSure QPCR system, 43 samples showed positive results and five samples were under the lower LOD in all four different sampling tubes. The HBV DNA level of the positive sera ranged from 1.21 to 8.45 log 10 IU/ml. The correlation coefficient R 2 was 0.987 between EDTA plasma and SST serum, 0.977 between plain tube serum and EDTA plasma, and 0.994 between EDTA plasma and SST serum. The correlation graphs and Bland-Altman plots are presented in Figure 3. Discussion There are no data for the comparison of these four commercial HBV DNA quantification assays (AdvanSure QPCR, Abbott QPCR, COBAS TaqMan and VERSANT bdna) in previous studies. In the present study, the AdvanSure QPCR showed good correlation with three other HBV DNA assays and showed a wider dynamic measurement than the VERSANT bdna. Thirty-five of 138 samples (25.4%) for which results were either below the lower LOD (n =20) or over the upper LOD (n =15) with the VERSANT bdna could be quantified by the AdvanSure QPCR. In our study, the HBV DNA values derived from the AdvanSure QPCR assay were on average 0.71 log 10 lower than those obtained with the VERSANT bdna, 0.27 log 10 lower than those with the COBAS TaqMan, and 0.65 log 10 higher than those with the Abbott QPCR. Small mean differences were found between different HBV DNA assays in our study. Other studies also reported that the VERSANT bdna showed higher HBV DNA results (about 0.67 or 0.7 log 10 ) than the COBAS TaqMan or other real-time PCR assays [6, 7]. Similarly, the Abbott QPCR results were reported to be 0.25 log 10 IU/ml lower on average than the results of the COBAS TaqMan [8]. The different standardization process for PCR and the sample volume might cause these discrepancies between the HBV-DNA assays results. Sample preparation tubes containing clot activators, thrombin, or other non-silica clot activators, could influence the assay performance. In fact, the Abbott QPCR might be inhibited by

236 Annals of Clinical & Laboratory Science, vol. 43, no. 2, 2013 Figure 3. Comparisons between HBV DNA levels measured from plain tube-collected, SST-collected serum samples and EDTA-treated plasma samples from the same patients. The correlation coefficient was 0.9844 and the mean difference was 0.20 Log 10 HBV DNA IU/ml between the plain tube and SST serum samples (A and B). The correlation coefficient was 0.9766 and the mean difference was 0.22 Log 10 HBV DNA IU/ml between the plain tube serum and EDTA plasma samples (C and D). The correlation coefficient was 0.9871 and the mean difference was 0.01 Log10HBV DNA IU/ml between the EDTA plasma and SST serum samples (E and F). clot activators, and the manufacturer s instructions emphasize the possibility of aberrant results associated with different types of collection tube. The tube matrix effect on the AdvanSure QPCR was therefore investigated. There was no inhibition of PCR, and the correlation between samples collected in different tubes was good. These results might arise in part from the differences in automated DNA extraction methods. Some methods use silica-coated paramagnetic beads for which the basic principle of DNA extraction is similar to vacuum membrane column technology (e.g., the

Evaluation of AdvanSure HBV real-time PCR 237 LabTurbo 36 compact system for LG Advansure QPCR and QIAamp MinElute Virus Spin kits). The principal of DNA extraction is to isolate DNA based on its binding properties to silica at different salt concentrations. Insufficient mixing between samples and magnetic beads might occur with the paramagnetic bead method. However, the vacuum membrane column method represents conditions similar to those in manual centrifugation. Therefore, automated vacuum membrane column technology is more efficient in removing inhibitors than the automated paramagnetic bead method. In the precision analysis of the AdvanSure QPCR, the between-day CV was 2.4-5.7% and the withinrun CV was 0.8-2.4%. In previous HBV DNA studies, the between-run CV was 1.6-9.4% and the within-run CV was 6.5-20.7% with the VERSANT bdna, while the between-run CV was 7.9-11.6% and the within-run CV was 13.0-18.6%,with the COBAS TaqMan [9, 10]. Similarly, in a study using the Abbott QPCR, the between-run CV was 3.6-4.7% and the within-run CV was 3.0-5.0% [11]. Therefore, the precision of the AdvanSure QPCR was equivalent to or better than those of the previously used HBV PCR assays. Linearity was found in the tested range of 1.15-8.45 log 10 IU/ml, and this result confirmed the linear range of 20-10 8 IU/ml (1.3-8 log 10 IU/ml) stated by the manufacturer. In our study, all of the five repeated tests at 20, 40, 60, and 100 IU/ml detected HBV DNA. These results coincided well with the LOD of 18 IU/ml claimed by the manufacturer. In conclusion, the AdvanSure QPCR assays uses a relatively small sample volume (250-300 µl) compared to the other investigated assays (600-750 µl). It showed good sensitivity and a wider dynamic range than the VERSANT bdna. Moreover, the results were not affected by the different collection tubes or by interfering materials. The results of the AdvanSure HBV QPCR correlated well with those of the VERSANT bdna, Abbott QPCR, and COBAS TaqMan. Therefore, the AdvanSure QPCR can be used effectively to monitor patients with either low or high serum HBV DNA levels and to provide optimal monitoring and timely application of antiviral therapies. Acknowledgements This work was supported by the Industrial Core Technology Development Program funded by the Ministry of Knowledge Economy (No. 10033183). We thank Eunha Kim and Bae Kunga for assisting with the study. References 1. Hoofnagle JH DE, Liang TJ, Fleischer R, Lok AS. Management of hepatitis B: summary of a clinical research workshop. Hepatology 2007;45:1056-1075. 2. Liaw YF, Leung N, Kao JH, Piratvisuth T, Gane E, Han KH, Guan R, Lau GK, Locarnini S. Asian-Pacific consensus statement on the management of chronic hepatitis B: a 2008 update. Hepatol Int 2008;2:263-283. 3. Iloeje UH, Yang HI, Su J, Jen CL, You SL, Chen CJ. Predicting cirrhosis risk based on the level of circulating hepatitis B viral load. Gastroenterology 2006;130:678-686. 4. Niesters HG, Pas S, de Man RA. Detection of hepatitis B virus genotypes and mutants: current status. J Clin Virol 2005;34 Suppl 1:S4-8. 5. Valsamakis A. Molecular testing in the diagnosis and management of chronic hepatitis B. Clin Microbiol Rev 2007;20:426-439. 6. Yang JF, Lin YY, Huang JF, Liu SF, Chu PY, Hsieh MY, Lin ZY, Chen SC, Wang LY, Dai CY, Chuang WL, Yu ML. Comparison of clinical application of the Abbott HBV PCR kit and the VERSANT HBV DNA 3.0 test to measure serum hepatitis B virus DNA in Taiwanese patients. Kaohsiung J Med Sci 2009;25:413-422. 7. Garbuglia AR, Angeletti C, Lauria FN, Zaccaro P, Cocca AM, Pisciotta M, Solmone M, Capobianchi MR, Yao JD, Beld MG, Oon LL, Sherlock CH, Germer J, Menting S, Se Thoe SY, Merrick L, Ziermann R, Surtihadi J, Hnatyszyn HJ. Comparison of Versant HBV DNA 3.0 and COBAS AmpliPrep-COBAS TaqMan assays for hepatitis B DNA quantitation: Possible clinical implications Multicenter evaluation of the VERSANT hepatitis B virus DNA 3.0 assay. J Virol Methods 2007;146:274-280. 8. Ciotti M, Marcuccilli F, Guenci T, Prignano MG, Perno CF. Evaluation of the Abbott RealTime HBV DNA assay and comparison to the Cobas AmpliPrep/Cobas TaqMan 48 assay in monitoring patients with chronic cases of hepatitis B. J Clin Microbiol 2008;46:1517-1519. 9. Weiss J, Wu H, Farrenkopf B, Schultz T, Song G, Shah S, Siegel J. Real time TaqMan PCR detection and quantitation of HBV genotypes A-G with the use of an internal quantitation standard. J Clin Virol 2004;30:86-93. 10. Yao JD, Beld MG, Oon LL, Sherlock CH, Germer J, Menting S, Se Thoe SY, Merrick L, Ziermann R, Surtihadi J, Hnatyszyn HJ. Multicenter evaluation of the VERSANT hepatitis B virus DNA 3.0 assay. J Clin Microbiol 2004;42:800-806. 11. Kim MH, Cha CH, An D, Choi SE, Oh HB. Performance evaluation of Abbott RealTime HBV Quantification Kit for HBV viral load by real-time PCR. Korean J Lab Med 2008;28:144-150.