Detection and quantitation of BK virus DNA by real-time polymerase chain reaction in the LT-ag gene in adult renal transplant recipients

Determination of polyomavirus BK (BKV) load in urine and plasma has been advocated for monitoring adult renal transplant recipients suffering from BKV-related nephropathy. An "in-house" real-time quantitative PCR assay was developed using the BKV-1/BKV-3 primers set in the large tumor antigen (LT-ag) region to quantitate BK virus loads in plasma and urine in renal transplant patients. This assay was adapted to routine virology laboratory by evaluating two extraction procedures of nucleic acids from urine and plasma, one manual and the other using an automatic extractor, and by evaluating the Light Cycler versus Taqman apparatus. Both the manual and automatic extraction procedures and real-time PCR apparatus were equivalent. The Light Cycler and Taqman instruments allow similarly rapid, accurate, reproducible and specific quantitative detection of the three major BKV subtypes, with a detection limit of 10 BKV DNA copies/ml, and a range from 10(0) to 10(7) copies/ml. Of 855 renal transplant patients, 128 (15%) had BKV DNA in both plasma and urine samples with a mean viral load of 5.1 log/ml in plasma and 6.8 log/ml in urine and in 5 (4%) BKV-associated tubulo-interstitial nephropathy; 332 (39%) BKV DNA was found only in the urine, not in the plasma, without further development of nephropathy and 395 patients had no BKV in plasma and urine. These observations emphasize the usefulness of real-time PCR to assess the BKV load by routine testing, and confirm the need to combine both plasma and urine determinations of the BKV DNA load in order to identify renal transplant patient at high risk for BKV-associated nephropathy.     

Comparison of three real-time PCR for the quantification of polyomavirus BK

BackgroundReactivation of latent polyomavirus BK is associated with nephropathy (PVAN) after renal transplantation. BK viral load determinations are a highly sensitive and specific method for predicting risk for PVAN.Objectives and study designThe performance of three real-time PCR for BKV DNA quantification (MultiCode^®-RTx BK virus ASR [MC-RTx], MGB-Alert BKV ASR [MGB] and a laboratory developed assay [LDA]) were evaluated against a conventional PCR (test of record, TOR) in terms of linearity, dynamic range, and accuracy.ResultsThe LOD (log₁₀ copies/ml) were 2.0, 2.0 and 3.0 for MC-RTx, MGB and LDA, respectively with a commercial plasma panel and 2.0, 2.6 and 3.5 with a urine panel. These assays demonstrated excellent linearity (r² = 1.0) and reproducibility (CV range = 0.7–20.4%, 0.9–13.2%, and 0.5–13%, respectively). In an analysis of 100 clinical specimens, all 76 samples defined as true positive for BKV DNA (positive by two or more methods or a recent history of positivity) were detected with MC-RTx, while only 64 were detected with MGB and 55 were detected with LDA. BKV DNA was not detected by any method in the true negative specimens. Based on these results, the sensitivities were 100% for MC-RTx, 84% for MGB and 72% for LDA. The greatest linear correlation with the mean concentration was observed with MC-RTx (r² = 0.96) with two samples (3%) with greater than 0.5 log₁₀ variance in quantification versus seven (11%) with MGB and ten (18%) with LDA.ConclusionsThese real-time assays for BKV load demonstrated excellent performance characteristics, with the MC-RTx demonstrating the greatest sensitivity.     

Reevaluating and optimizing polyomavirus BK and JC real-time PCR assays to detect rare sequence polymorphisms

PCR-based molecular assays have a central role in polyomavirus diagnostics. To assure optimal performance, target sequences should be regularly updated according to newly available sequences. The aim of this study was to review our in-house polyomavirus BK (BKV) and JC (JCV) real-time PCR assays. Database analysis revealed variations in the BKV target region which might affect the assay performance, while no significant changes were found in the JCV target region. We compared two degenerate versions of our BKV primers which accommodated at least 95% of all published genetic variants. Dilutions of cloned viral genomic DNA and probit analysis indicated an analytical sensitivity of the updated BKV assay of 4.15 copies/reaction and that of the JCV assay was 3.37 copies/reaction. The specificity was assessed by testing JCV- and BKV-positive samples that showed no cross-reactivity. The performance of the original and updated BKV assay was compared in 101 urine and 200 plasma samples submitted to our routine diagnostic laboratory revealed similar quantitative results. We conclude that our JCV and updated BKV real-time PCR assays are robust and detect rare variants possibly encountered in the clinical routine.     

肾移植后BK病毒感染者实时荧光定量PCR检测

背景：对于BK病毒感染、BK病毒相关性肾病的认识缺乏规范的实验室诊断程序和标准化的无创性检验方法。 目的：建立肾移植后患者尿液和外周血BK病毒感染负荷实时荧光定量PCR检测方法。 方法：针对BK病毒基因组,自主设计特异性引物BKV-F和BKV-R,Taqman荧光探针BKV-P,Taqman荧光探针BKV-P的5’端标记有荧光基团,在除5’端外的任意一个位置上标记有淬灭基团;然后处理待测样本,进行PCR反应。 结果与结论：将检测阳性的扩增产物进行基因测序,测序结果经BLAST比对后证实为BK病毒基因序列;利用上述方法对56份样本进行检测,其中,20份BK病毒血清样本及20份BK病毒尿液样本检测均为阳性,有S型扩增曲线。动态范围测定显示在103~1010 copies/mL之间标准曲线具有良好的相关性。5份健康人尿液样本,5份血液样本及6份临床常见的其他病原体血液样本检测均为阴性,无S型扩增曲线。结果表明该方法可进行定性、定量检测,特异性好,反应快速,一般30 min即可得到反应结果,并且成本低、假阳性少。     

Polyomavirus BK DNA quantification assay to evaluate viral load in renal transplant recipients.

BACKGROUND: Several studies have disclosed a correlation between polyomavirus BK (BKV) and interstitial nephritis in renal transplant recipients and its quantification in urine and serum is therefore required to assess the role of BKV infection in nephropathy. OBJECTIVE: This paper describes a urine and serum BKV-DNA quantification protocol devised to evaluate the viral load. STUDY DESIGN: Screening of samples containing > or =10(3)/ml viral genome copies by a semi-quantitative polymerase chain reaction (PCR) assay is followed by precise quantification of the samples containing a high number of viral genomes in a quantitative-competitive (QC)-PCR assay. Generation of the competitor construct relied on the different sizes of wild-type and competitor amplicons. RESULTS AND CONCLUSIONS: Screening by semi-quantitative PCR selects samples with a high number of viral genomes for use in the more labor-intensive and -expensive QC-PCR assay and thus provides a handy means for quantitative DNA analysis of large numbers of samples. The results obtained in BKV-DNA quantification in urine and serum samples from 51 renal transplant recipients (22 on treatment with tacrolimus (FK506) and 29 on cyclosporine A (Cy A)) are interesting: BKV-DNA findings (43.1%) in urine samples are in agreement with the BKV urinary shedding reported in literature (5-45%). With regard to immunosuppressive treatment, the percentage of activation of the infection (revealed by BKV-DNA detection in urine samples) in the two groups of therapy is similar (40.9% vs 44.8%). The observation that the viral load in urine is dissociated with that of serum suggests that both parameters should be investigated in evaluation of the pathogenetic role of BKV reactivation in renal transplant recipients. Moreover, our BKV-DNA quantification protocol could be used to monitor viral load in urine and serum samples from renal transplant recipients so as to detect those at risk of nephropathy and monitor their response to immunosuppression reduction therapy if it occurs.     

Systematic screening of BK virus by real-time PCR prevents BK virus associated nephropathy in renal transplant recipients

BK virus associated nephropathy occurs in approximately 5% of renal transplant recipients. Quantitation of BKV DNA in serum/plasma early in the course of disease has been suggested to be an important diagnostic tool for polymavirus-associated nephropathy (PVAN). The aim of this study was to develop a BKV real-time PCR (qPCR), which could be included in a diagnostic qPCR platform. Additionally, the significance of the assay as a surrogate marker for PVAN was investigated. Quantitation of BKV DNA by qPCR was carried out on 234 serum samples from a retrospective study including 31 renal transplant recipients monitored for at least 6 months post-transplantation. BKV viremia was detected in 9 out of 31 patients. Four patients had a viral load of >10,000 copies/ml at least on one occasion. In two of these patients, PVAN was diagnosed clinically during the study period. In retrospect, these patients were shown to be BKV positive before the clinical diagnosis of PVAN was made. Another two patients had a permanent graft dysfunction, but were never clinically diagnosed with PVAN. None of the remaining five patients with BKV DNA (<10,000 copies/ml) had renal impairment. Based on these results, an algorithm was introduced at the study center in 2006 and to date, August 2011, no cases of PVAN with loss of graft have been observed. The concept of including different PCR protocols in a common qPCR platform allows laboratories with small sample numbers to perform regularly a variety of assays at a reasonable cost.     

The use of unprocessed urine samples for detecting and monitoring BK viruses in renal transplant recipients by a quantitative real-time PCR assay

Results of quantitative BK viral load using real-time quantitative PCR (rt-QPCR) were compared using two types of samples, extracted urine DNA and unprocessed urine. An excellent correlation was observed in quantitative viral load between unprocessed urine and extracted urine DNA samples. (R2=0.96, p<0.001). Compared to extracted urine DNA when a small sample volume of unprocessed urine was used (2 microl per PCR reaction), 100% concordance is detection of BKV DNA was observed in 124 samples (106 positive and 18 negative) collected from renal transplant recipient (RTR). There was no significant difference in the quantitative BK viral load (log10 copies/ml) detected in extracted urine DNA (median=7.82) compared to unprocessed urine (median=7.17). Urine pH in the range of 5.2-7.1 and specimen freezing had no effect on the rt-QPCR reaction. The partial inhibition of the rt-QPCR reaction observed when 5 microl sample volume of unprocessed urine was used was markedly reduced at a sample volume of 2 microl. Using unprocessed urine for rt-QPCR detection of BK viral load is cost-saving while maintaining the sensitivity and accuracy associated with the use of extracted urine DNA, making a clinical BKV surveillance strategy in RTR based on urinary sample screening using rt-QPCR as the first line test more feasible.     

New commercially available PCR and microplate hybridization assay for detection and differentiation of human polyomaviruses JC and BK in cerebrospinal fluid, serum, and urine samples

JC and BK human polyomaviruses (family Polyomaviridae) may cause severe neurological or urinary tract pathologies in immunocompromised hosts. In the present study, we evaluated a new commercially available PCR and microplate colorimetric hybridization assay for the standardized differential detection of JC virus (JCV) and BK virus (BKV) genomes in clinical samples. This JC/BK Consensus test was first evaluated by testing serial dilutions of JCV or BKV plasmid DNA standards and was then compared with an in-house reference PCR assay for the detection of JC and BK virus genomes in 70 cerebrospinal fluid (CSF) samples of patients with neurological disorders and in 75 serum or plasma samples and 125 urine samples of renal graft recipients. This new test allowed a limit of detection of 10 copies and 1 copy of JC and BK virus genomes, respectively, and was able to differentiate various levels of JCV, BKV, and mixed JCV and BKV DNA genomes in a single reaction tube. Our results showed 100% specificity and sensitivity for the JC/BK Consensus test with CSF samples. With serum or plasma samples, this test had a sensitivity and a specificity of 100% for both JCV and mixed JCV and BKV DNA detection and a sensitivity and a specificity of 100 and 97.8% for BKV DNA detection, respectively. With urine samples, the sensitivity and specificity were 100 and 96.6%, respectively, for JCV DNA detection; 100 and 89.4%, respectively, for BKV DNA detection; and 44.4 and 100%, respectively, for mixed JCV and BKV DNA detection. In conclusion, our data indicate that this new test, the JC/BK Consensus test, is valuable for the sensitive and specific differential detection of single JCV and BKV infections in CSF, serum or plasma, and urine samples. The use of this reliable PCR assay would improve the routine virological diagnosis as well as the clinical care of immunocompromised patients with polyomavirus-related pathologies.     

Assessment of infection with polyomaviruses BKV, JCV and SV40 in different groups of Cuban individuals

We investigated the frequency of BKV, JCV and SV40 reactivation in three groups of Cuban patients by multiplex nested PCR assay of 40 paraffin-embedded colorectal neoplasm tissues, 113 urine samples, and 125 plasma samples from 27 transplant recipients, and cerebrospinal fluid (CSF) from 67 HIV-1-infected individuals with central nervous system (CNS) disorders. None of these polyomaviruses were detected in colorectal neoplasms. JCV DNA was detected in 2 of 67 patients (2.9%) with CNS disorders, but neither BKV nor SV40 was identified. BKV was found in urine from 38.5% and 28.6% of adult and pediatric transplant recipients, respectively. In adult renal transplant recipients, excretion of BKV in urine was significantly associated with episodes of acute rejection (p=0.012) and with excretion of HCMV in urine (p= 0.008). In Cuba, the polyomaviruses studied here could not be related to colorectal neoplasms, and JCV was rarely detected in CSFs of HIV-1-infected individuals, whilst BKV reactivation was found to occur frequently in organ transplant recipients.     

Évaluation de la plate-forme de PCR en temps réel LightCycler 480 pour la mesure des charges virales CMV,EBV, HHV-6 et BKV dans le sang total

Objective

The Roche LightCycler^® 480 (LC480) system was evaluated for quantitative molecular diagnosis of opportunistic viral infections caused by human cytomegalovirus (CMV), Epstein-Barr virus (EBV), human herpesvirus 6 (HHV-6), and BK virus (BKV), in comparison with “in-house” real-time PCR assays.

Patients and methods

A total of 253 whole blood specimens obtained from transplant recipients were tested.

Results

Both the “in-house” and the LC480 methods were highly correlated (Spearman correlation coefficient Rho ≥ 0.85; p < 0.0001) with an excellent overall qualitative agreement (90.5 %) and no significant quantitative difference between both techniques for the four viruses tested. The accuracy of the LC480 protocols were confirmed further by the results obtained with the 44 samples from the Quality Control for Molecular Diagnosis (QCMD) 2008 proficiency panel.

Conclusion

The LC480 system constitutes a suitable and versatile real-time PCR platform in a routine laboratory setting for the diagnosis and monitoring of opportunistic viral infections in transplant recipients, by measuring HCMV, EBV, HHV-6, and BKV loads in whole blood samples.     

肝螺杆菌TaqMan MGB探针实时荧光定量PCR快速检测方法的建立及应用研究

目的 建立特异、敏感、快速检测肝螺杆菌的TaqMan MGB探针实时荧光定量PCR方法.方法 针对肝螺杆菌flaB 基因的保守区设计特异性引物和探针,建立肝螺杆菌TaqMan MGB探针实时荧光定最PCR方检测方法,验证方法的特异性、敏感性和稳定性.对2008-2011年期间采集的1081份临床样本中的肝螺杆菌进行检测,同时进行分离培养和常规PCR检测.结果 建立的TaqMan MGB探针实时荧光定量PCR方法对肝螺杆菌的检测具有高度的特异性,对幽门螺杆菌、空肠弯曲菌、泰泽氏菌、侵肺巴斯德氏菌、大肠埃希菌、铜绿假单胞菌均无交叉反应,检测的灵敏度达8.3拷贝.标准曲线显示各浓度范围内具有良好的线性关系,相关系数为0.999,斜率为-3.227,TaqManMGB探针实时荧光定量PCR效率为100％.对1081份临床样本进行检测,TaqMan MGB探针实时荧光定量PCR和常规PCR均能检出86份肝螺杆菌阳性样本,而细菌分离培养则仅检出4份阳性.结果显示,建立的TaqMan MGB探针实时荧光定量PCR方法比细菌分离培养方法更敏感,能够直接从临床样本中检出肝螺杆菌DNA,检测时间仅为2h.结论 研究建立的TaqMan MGB探针实时荧光定量PCR方法具有可靠、特异、敏感的特点,适用于肝螺杆菌的快速检测.     

Distribution of BK polyomavirus genotypes in Tunisian renal transplant recipients

BK polyomavirus (BKV) is a ubiquitous virus in humans that remains latent in the urogenital tract after a primary infection during childhood. The virus, which is reactivated frequently and excreted in urine, can cause nephropathy in renal transplant recipients. BKV sequences are classified into four subtypes (I-IV). Subtype I and IV are divided further into four and six subgroups, respectively. To characterize the subtypes of BKV prevalent in Tunisia, the presence of the virus was investigated by real-time PCR in urine samples from 77 renal transplant recipients. For subtype identification, a DNA fragment in the VP1 coding region, amplified by nested PCR from positive samples, was sequenced and a phylogenetic analysis was performed. In the studied population, subtype I (75.5%), II (14.5%), and IV (2.5%) were identified with a clear predominance of subtype Ib-2 (73%) as observed in European population. This study suggests that in North Africa, the BKV genotype distribution is similar to that of Europe and different from that of sub-Saharan Africa.     

Comparison of a Transplant Multiplex Viral Panel on the ICEPlex System with Real-Time PCR for Detection of Cytomegalovirus,Epstein-Barr Virus,and BK Virus in Clinical Specimens

We compared a multiplex viral transplant panel on the ICEPlex system to real-time PCR for the detection of cytomegalovirus (CMV), Epstein-Barr virus (EBV), and BK virus (BKV). The sensitivities of the ICEPlex were 83.3%, 95.5%, and 65.5% for the detection of CMV, EBV, and BKV, respectively. Interestingly, the multiplex assay detected dual infections in 16/280 (5.7%) samples tested.     

WU and KI polyomaviruses in respiratory,blood and urine samples from renal transplant patients

BackgroundIt is suggested that immunosuppression due to transplantation might be a risk for human polyomavirus KI (KIPyV) and WU (WUPyV) infection. Most of the publications report data about stem cell transplant patients, little is known about these virus infections in renal transplant patients.ObjectivesTo study the presence of KIPyV and WUPyV in upper respiratory, plasma and urine samples from renal transplant patients. To analyse clinical and personal data.Study design532 respiratory, 503 plasma and 464 urine samples were collected from 77 renal transplant patients. KIPyV and WUPyV were detected by nested and quantitative real-time PCR. Patient and clinical data from medical records were analyzed.ResultsKIPyV was detected in respiratory, plasma and urine samples from 14.3%, 3.9% and 4.1% of renal transplant patients. WUPyV was found in respiratory and plasma specimens from 9.1% and 5.3% of the patients. Significant association was revealed between the detection of KIPyV and WUPyV and the time of samples collection and the age of the patients. KIPyV was presented in respiratory and plasma sample at the same time. KIPyV was detected in plasma samples from two patients and in urine samples of three other patients providing also KIPyV positive respiratory samples at the same time. No clinical consequences of KIPyV or WUPyV infection were found.ConclusionAlthough no clinical consequences of KIPyV and WUPyV infections were found in renal transplant patients, it is suggested that renal transplantation might result in higher susceptibility or reactivation of these infection.     

Marked variability of BK virus load measurement using quantitative real-time PCR among commonly used assays

BK virus (BKV) is the infectious cause of polyomavirus-associated nephropathy. Screening guidelines for renal-transplant recipients define levels of viremia and viruria that are actionable for additional testing or intervention. However, standardized real-time PCR primers, probes, and standards are unavailable, and the extent of agreement among published assays is unknown. We compared seven TaqMan real-time PCR primer/probe sets (three designed at this institution, three described in the literature, and one purchased) in conjunction with two different standards to prospectively measure BKV titers in 251 urine specimens submitted to our clinical laboratory. We observed substantial disagreement among assays attributable both to features of primer and probe design and to choice of reference material. The most significant source of error among individual specimens was primer or probe mismatch due to subtype-associated polymorphisms, primarily among subtype III and IV isolates. In contrast, measurement of the most abundant subtypes (Ia, V, and VI) were typically uniform among all seven assays. Finally, we describe and validate a new clinical assay designed to reliably measure all subtypes encountered in our study population (Ia, Ic, III, IV, and VI). Consideration of available BKV sequence information in conjunction with details of subtype distribution allowed us to develop a redesigned assay with markedly improved performance. These results suggest that both accurate BKV measurement and the uniform application of BKV screening guidelines could be significantly improved by the use of standardized reference materials and PCR primers and probes.     

Specific and quantitative detection of human polyomaviruses BKV and JCV by LightCycler real-time PCR.

BACKGROUND: BK virus (BKV) and JC virus (JCV) are the only two known human polyomavirus that typically establish subclinical persistent infections. In immunocompromised hosts reactivation of the JCV infection is the cause of the central nervous system disease progressive multifocal leucoencephalopathy (PML), while BKV may cause renal nephropathy and haemorrhagic cystitis. OBJECTIVES: The goal of this study was to develop a specific quantification assay for each polyomavirus by LightCycler real-time polymerase chain reaction (PCR) based on SYBR Green I detection. STUDY DESIGN: DNA fragments of 138bp and 233bp from the "large T antigen" region of JCV and BKV, respectively, were amplified. The ability of the designed primer sets to separately quantify BKV DNA or JCV DNA and the PCR efficiency were assessed on reference DNA samples. Known amounts of cloned JCV DNA and BKV DNA from TEBU-BIO nv (Boechout, Belgium) were used to generate standard curves for the quantification assays. Species-specificity of the PCR was evaluated with cloned DNA and with DNA from patient samples. RESULTS: The assay allowed a specific quantification over a 7log dynamic range. Seventeen copies each of the viral genes were reproducibly and accurately detected. The primer sets generated specific DNA fragments for each virus confirmed by agarose gel analysis and by cycle sequencing. The similarities of the amplified gene sequences by BLAST analysis were 99% and 100% for BKV and JCV, respectively. There was no cross-reactivity within the dynamic range of the standard dilutions. CONCLUSIONS: We developed LightCycler real-time PCR assay based on SYBR Green I detection that provided rapid and specific quantification of polyomavirus load.     

Toward Standardization of BK Virus Monitoring: Evaluation of the BK Virus R-gene Kit for Quantification of BK Viral Load in Urine,Whole-Blood,and Plasma Specimens

Screening of BK virus (BKV) replication is recommended to identify patients at increased risk of BKV-associated diseases. However, the heterogeneity of molecular techniques hinders the establishment of universal guidelines for BKV monitoring. Here we aimed to compare the performance of the CE-marked BK virus R-gene kit (R-gene) to the performance of our in-house assay for quantification of BKV DNA loads (BKVL). A 12-specimen panel from the Quality Control for Molecular Diagnostics (QCMD) organization, 163 urine samples, and 88 paired specimens of plasma and whole blood (WB) from transplant recipients were tested. Both the R-gene and in-house assays showed a good correlation within the QCMD panel (r = 0.995 and r = 0.989, respectively). BKVL were highly correlated between assays, although positive biases were observed with the in-house assay in analysis of urine (0.72 ± 0.83 log₁₀ copies/ml), plasma (1.17 ± 0.63 log₁₀ copies/ml), and WB (1.28 ± 0.37 log₁₀ copies/ml). Recalibration with a common calibrator significantly reduced the bias in comparisons between assays. In contrast, BKVL was underestimated with the in-house PCR in eight samples containing BKV genotype II, presenting point mutations at primer-annealing sites. Using the R-gene assay, plasma and WB specimens were found to be equally suitable for quantification of BKVL, as indicated by the high correlation coefficient (r = 0.965, P < 0.0001). In conclusion, the R-gene assay demonstrated reliable performance and higher accuracy than the in-house assay for quantification of BKVL in urine and blood specimens. Screening of BKV replication by a well-validated commercial kit may enable clinical laboratories to assess viral loads with greater reproducibility and precision.     

Validation of clinical application of cytomegalovirus plasma DNA load measurement and definition of treatment criteria by analysis of correlation to antigen detection

Successful preemptive cytomegalovirus (CMV) therapy in transplant patients depends on the availability of sensitive, specific, and timely diagnostic tests for CMV infections. The pp65 antigenemia assay has been used for this purpose with considerable success. Quantification of CMV DNA is currently regarded to be an alternative diagnostic approach. The precise relationship between these two methods has still to be defined, but is essential to compare diagnostic results. This study compared the results of both assays with a large series of transplant recipients in different categories. An internally controlled quantitative real-time CMV DNA PCR was used to test 409 plasma samples from solid organ transplant (SOT) and stem cell transplant (SCT) patients. Levels of CMV DNA in plasma correlated well with classified outcomes of the pp65 antigenemia test. Despite this correlation, the quantitative CMV PCR values in a class of antigen test results were within a wide range, and the definition of an optimal cutoff value for initiating treatment required further analysis by a receiver-operating characteristic curve analysis. This is essential for reactivating infections in particular. For the SCT patients the optimal cutoff value of CMV DNA load defining relevant viral reactivation (in this assay, 10,000 copies/ml) was slightly higher than that for the SOT patients (6,300 copies/ml). Based on a comparison with the established pp65 antigenemia assay, quantification of CMV DNA in plasma appeared to be capable of guiding the clinical management of transplant recipients. This approach may have important advantages, which include a superior reproducibility and sensitivity, allowing the inclusion of kinetic criteria in clinical guidelines.     

Detection and Differentiation of Human Polyomaviruses JC and BK by LightCycler PCR

Human polyomaviruses JC and BK may cause several clinical manifestations in immunocompromised hosts, including progressive multifocal leukoencephalopathy and hemorrhagic cystitis. Molecular detection by PCR is recognized as a sensitive and specific method for detecting human polyomaviruses in clinical samples. In this study, a real-time PCR assay using the LightCycler platform was evaluated and compared to an "in-house" PCR assay using a conventional detection method. A total of 122 urine specimens were tested, and human polyomavirus was detected in 49 specimens (40%) by both conventional PCR and LightCycler PCR. The remaining 73 specimens (60%) were found negative by both assays. For 46 of the 49 positive specimens, LightCycler PCR and conventional PCR identified the same polyomavirus type. These samples included 30 samples with JC virus (JCV), 14 samples with BK virus (BKV), and 2 samples in which both viruses were detected. In the remaining three samples, both JCV and BKV were detected by the conventional assay, but only JCV was detected by the LightCycler assay. The results of this study show that the LightCycler PCR assay displays sensitivity and specificity similar to those of a conventional PCR assay. These data, combined with its rapid turnaround time for results and decreased hands-on time, make the LightCycler PCR assay highly suitable for the rapid detection and differentiation of JCV and BKV in the clinical laboratory.     

Quantitative analysis of HCMV DNA load in whole blood of renal transplant patients using real-time PCR assay.

BACKGROUND: Preemptive antiviral treatment of Human Cytomegalovirus (HCMV) disease is a major goal in the management of organ transplant patients. It requires sensitive diagnostic methods. Automated real-time PCR systems have been recently proposed to monitor HCMV infection in such patients. OBJECTIVE: Objectives of this study was to compare a real-time quantitative PCR on whole blood with the HCMV pp65 antigenemia assay in renal transplant recipients, and also to evaluate two different DNA extraction methods. STUDY DESIGN: A total of 248 specimens from 21 patients were tested by quantitative pp65 antigenemia and quantitative real-time PCR. DNA was extracted from whole blood samples using two different methods: a conventional column manual assay and an automated system. RESULTS: Quantification of HCMV DNA using the two extraction methods showed highly similar results (Spearman rank test, r=0.863). We found a significant correlation between DNA quantification by real-time PCR in whole blood and pp65 antigenemia test (Spearman rank test, r=0.767). This correlation was not modified when the HCMV DNA results were normalized by quantification of the albumin cellular gene. In eight patients, HCMV infection was detected earlier with quantitative PCR than with the antigenemia test (mean delay of 11.25 days). HCMV DNA load equivalent of 50 pp65 positive cells/200,000 polymorphonuclear leukocytes (PMNLs) is log4.095 copies per ml of blood. CONCLUSIONS: Real-time PCR in whole blood is a sensitive method for estimating the HCMV genome load in renal transplant patients, and is more rapid and practicable than using PMNLs for pp65 antigenemia tests.