Zhengming Gu

Comparison of Droplet Digital PCR to Real-Time PCR for Quantitative Detection of Cytomegalovirus

ABSTRACT Quantitative real-time PCR (QRT-PCR) has been widely implemented for clinical viral load testing, but a lack of standardization and relatively poor precision have hindered its usefulness. Digital PCR offers highly precise, direct quantification without requiring a calibration curve. Performance characteristics of real-time PCR were compared to those of droplet digital PCR (ddPCR) for cytomegalovirus (CMV) load testing. Tenfold serial dilutions of the World Health Organization (WHO) and the National Institute of Standards and Technology (NIST) CMV quantitative standards were tested, together with the AcroMetrix CMV tc panel (Life Technologies, Carlsbad, CA) and 50 human plasma specimens. Each method was evaluated using all three standards for quantitative linearity, lower limit of detection (LOD), and accuracy. Quantitative correlation, mean viral load, and variability were compared. Real-time PCR showed somewhat higher sensitivity than ddPCR (LODs, 3 log10 versus 4 log10 copies/ml and IU/ml for NIST and WHO standards, respectively). Both methods showed a high degree of linearity and quantitative correlation for standards (R 2 ≥ 0.98 in each of 6 regression models) and clinical samples (R 2 = 0.93) across their detectable ranges. For higher concentrations, ddPCR showed less variability than QRT-PCR for the WHO standards and AcroMetrix standards (P < 0.05). QRT-PCR showed less variability and greater sensitivity than did ddPCR in clinical samples. Both digital and real-time PCR provide accurate CMV load data over a wide linear dynamic range. Digital PCR may provide an opportunity to reduce the quantitative variability currently seen using real-time PCR, but methods need to be further optimized to match the sensitivity of real-time PCR.

Cidofovir for the treatment of adenoviral infection in pediatric hematopoietic stem cell transplant patients

Background. Adenovirus (ADV) infections are associated with significant morbidity and mortality after hematopoietic stem cell transplantation (HSCT). The virus is endemic in the general pediatric population and frequently causes severe disease in immunocompromised patients, especially children. We report our experience with cidofovir (CDV) for treatment of ADV infection in 57 HSCT patients, median age 8 years (range 0.5–26). Methods. Peripheral blood was prospectively screened weekly on all patients for ADV by quantitative real-time PCR for the first 100 days post-HSCT or longer if clinically indicated. Cultures for viral pathogens were performed from other involved sites. Upon detection of ADV by PCR, culture or tissue histopathology, CDV was given intravenously at 5 mg/kg weekly for 2 consecutive weeks, then every 2 weeks until 3 consecutive ADV-negative samples were documented from all previously invoved sites. Results. The clinical manifestations of ADV infection were: diarrhea (53%), fever (21%), hemorrhagic cystitis (12%), and pneumonitis (11%). Eight patients (14%) presented with disseminated disease. CDV treatment resulted in complete resolution of clinical symptoms in 56 (98%) patients in whom the virus became undetectable by all methods. One patient died due to ADV pneumonitis. No cases of dose-limiting nephrotoxicity were observed. Conclusions. Cidofovir appeared safe and effective for the treatment of ADV infection in this predominantly pediatric HSCT population. Vigilant surveillance and early treatment with CDV can prevent the poor outcomes associated with ADV disease. A larger prospective study is needed to further determine the role of CDV in the treatment of ADV after HSCT.

Multiplexed, Real-Time PCR for Quantitative Detection of Human Adenovirus

ABSTRACT Adenovirus infection is becoming increasingly recognized as a cause of morbidity and mortality in the immunosuppressed patient population. While early detection and quantitation of adenovirus in peripheral blood has been suggested as a means of directing and monitoring antiviral therapy in these patients, few methods have been published, particularly with respect to viral quantitation. A multiplexed real-time PCR assay was developed that can quantitatively detect a wide range of known serotypes of human adenovirus, including all of subgroups A to C. This assay was compared to a qualitative, Southern blot-based PCR assay by using 45 peripheral blood specimens from 16 patients. There was 100% concordance between the two tests in terms of qualitative results. The real-time assay detected adenovirus in patient samples at levels from <200 to 266,681 copies/ml of blood. By using control viral samples, sensitivity was demonstrated to less than 10 copies of viral genome per reaction and quantitative linearity was demonstrated from 10 to 106 copies of input viral DNA. Equivalent sensitivity and linearity were demonstrated for 15 different reference serotypes of adenovirus. Eleven other viral serotypes have complete target region sequence homology to one or more of the strains tested. No cross-reactivity was noted with other commonly isolated viral species. Sequence analysis showed no significant homology with any other human pathogens (bacterial or viral). This assay allows rapid, sensitive, and specific quantitation of adenovirus and may have a significant impact on the care of immunocompromised patients at risk for disseminated viral infection.

Comparison of Various Blood Compartments and Reporting Units for the Detection and Quantification of Epstein-Barr Virus in Peripheral Blood

ABSTRACT Epstein-Barr virus (EBV) infection is associated with a broad spectrum of disease. While quantification of EBV nucleic acid in the peripheral blood has been demonstrated to be useful for diagnosis and patient care, the optimal sample type and reporting format for such testing remain uncertain. Using quantitative real-time PCR (QRT-PCR), we evaluated EBV in whole blood (WB), peripheral blood mononuclear cells (PBMC), and plasma in 249 samples from 122 patients. In WB and PBMC, results were reported both in viral copies/ml and in copies/μg of total DNA. Trendings of quantitative values over time among the different sample types were compared. The sensitivities of QRT-PCR using WB and that using PBMC did not differ significantly (P = 0.33), and both were more sensitive than plasma alone (P < 0.0001). EBV viral load results from WB and PBMC paired sample types also showed a significant correlation (P < 0.05), as did results reported in copies/ml and copies/μg DNA for both WB and PBMC (R2 > 0.93). EBV viral loads detected using WB and PBMC trended very closely for the few patients who had multiple positive samples available for analysis. WB and PBMC show comparable sensitivities and a close quantitative correlation when assayed for EBV by QRT-PCR. The close correlation between copies/ml and copies/μg DNA also suggests that normalization to cell number or genomic DNA in cellular specimens may not be necessary.

PCR Followed by Electrospray Ionization Mass Spectrometry for Broad-Range Identification of Fungal Pathogens

ABSTRACT Invasive fungal infections are a significant cause of morbidity and mortality among immunocompromised patients. Early and accurate identification of these pathogens is central to direct therapy and to improve overall outcome. PCR coupled with electrospray ionization mass spectrometry (PCR/ESI-MS) was evaluated as a novel means for identification of fungal pathogens. Using a database grounded by 60 ATCC reference strains, a total of 394 clinical fungal isolates (264 molds and 130 yeasts) were analyzed by PCR/ESI-MS; results were compared to phenotypic identification, and discrepant results were sequence confirmed. PCR/ESI-MS identified 81.4% of molds to either the genus or species level, with concordance rates of 89.7% and 87.4%, respectively, to phenotypic identification. Likewise, PCR/ESI-MS was able to identify 98.4% of yeasts to either the genus or species level, agreeing with 100% of phenotypic results at both the genus and species level. PCR/ESI-MS performed best with Aspergillus and Candida isolates, generating species-level identification in 94.4% and 99.2% of isolates, respectively. PCR/ESI-MS is a promising new technology for broad-range detection and identification of medically important fungal pathogens that cause invasive mycoses.

Comparison of two broadly multiplexed PCR systems for viral detection in clinical respiratory tract specimens from immunocompromised children

Abstract Background The detection of viral respiratory tract infections has evolved greatly with the development of PCR based commercial systems capable of simultaneously detecting a wide variety of pathogens. Objectives Evaluate the relative performance of two commercial broad range systems for the detection of viral agents in clinical respiratory tract specimens from immunocompromised children. Study design A total of 176 patient samples were included in the analysis, representing only the first sample collected for each patient, and excluding failed reactions. Samples were de-identified and assayed in parallel using two different, broadly multiplexed PCR systems: ResPlex™ II Panel v2.0 (ResPlex), Qiagen, Hilden, Germany and FilmArray® Respiratory Panel (FilmArray), Idaho Technology Inc., Salt Lake City, UT. Method comparison was based upon pair-wise concordance of results according to patient age, viral target and number of targets detected. Results The two systems showed an overall concordance, by patient, of 83.8% (p =0.0001). FilmArray detected at least one target in 68.8% of samples, while ResPlex detected at least one target in 56.8%. ResPlex failed to detect 20.7% of FilmArray positives, and FilmArray failed to detect 4% of ResPlex positives. The relative performance of each system (including which system detected a higher number of positive samples) varied when stratified by target viral pathogen. Conclusions Broadly multiplexed PCR is an effective means of detecting large numbers of clinically relevant respiratory viral pathogens.

Comparative Evaluation of Three Commercial Quantitative Cytomegalovirus Standards by Use of Digital and Real-Time PCR

ABSTRACT The recent development of the 1st WHO International Standard for human cytomegalovirus (CMV) and the introduction of commercially produced secondary standards have raised hopes of improved agreement among laboratories performing quantitative PCR for CMV. However, data to evaluate the trueness and uniformity of secondary standards and the consistency of results achieved when these materials are run on various assays are lacking. Three concentrations of each of the three commercially prepared secondary CMV standards were tested in quadruplicate by three real-time and two digital PCR methods. The mean results were compared in a pairwise fashion with nominal values provided by each manufacturer. The agreement of results among all methods for each sample and for like concentrations of each standard was also assessed. The relationship between the nominal values of standards and the measured values varied, depending upon the assay used and the manufacturer of the standards, with the degree of bias ranging from +0.6 to −1.0 log10 IU/ml. The mean digital PCR result differed significantly among the secondary standards, as did the results of the real-time PCRs, particularly when plotted against nominal log10 IU values. Commercially available quantitative secondary CMV standards produce variable results when tested by different real-time and digital PCR assays, with various magnitudes of bias compared to nominal values. These findings suggest that the use of such materials may not achieve the intended uniformity among laboratories measuring CMV viral load, as envisioned by adaptation of the WHO standard.

Evaluation of repetitive sequence PCR and PCR-mass spectrometry for the identification of clinically relevant Candida species

The application of molecular diagnostic methods may improve the timeliness and accuracy with which fungi are identified. A total of 76 well-characterized reference strains of clinically relevant Candida species and 61 clinical Candida isolates were tested by repetitive sequence PCR (rep-PCR) and PCR followed by electrospray ionization mass spectrometry (PCR/ESI-MS) and results compared against internal transcribed spacer (ITS) ribosomal RNA gene sequencing as a reference standard. Both rep-PCR and PCR/ESI-MS correctly identified 51 isolates to the species level. When method performance was evaluated based only on genospecies included in the reference libraries, both methods yielded an accuracy of 98.1%. It may be concluded that rep-PCR and PCR/ESI-MS are highly effective at identifying clinical isolates of Candida to the species level. These methods hold promise for improving the speed and accuracy of identification of Candida spp. in clinical mycology laboratories.

Evaluation of multiplexed PCR and liquid-phase array for identification of respiratory fungal pathogens

Invasive fungal infections are the cause of serious morbidity and high mortality in immunocompromised patients. Early laboratory diagnostic options remain limited; however, rapid detection and accurate identification may improve outcome. Herein, multiplexed PCR followed by liquid-phase array was evaluated for detection and identification of common respiratory fungal pathogens, including Aspergillus fumigatus, Rhizopus microsporus, Scedosporium apiospermum and Fusarium solani. The limit of detection ranged 0.1-1 ng of DNA, depending on the fungus being tested. Primer cross-reactivity was seen for some fungi: Aspergillus flavus primers detected Aspergillus oryzae; Scedosporium apiospermum primers detected Paecilomyces lilacinus, and Aspergillus terreus primers detected S. apiospermum. PCR followed by liquid-phase array is potentially useful for the identification of clinically relevant fungal pathogens.

Detection of respiratory viruses in asymptomatic children undergoing allogeneic hematopoietic cell transplantation

Detection of respiratory viruses by molecular methods, in children without respiratory symptoms undergoing hematopoietic cell transplantation (HCT), has not been well described. A prospective study of 33 asymptomatic children detected respiratory viruses in 8 of 33 (24%) patients before HCT. Human rhinovirus (HRV) was detected in five patients, and human adenovirus (hADV) in three patients. Two additional patients shed HRV, and one shed human coronavirus (hCoV), post‐HCT. Two patients had co‐infections. Of the 11 asymptomatic patients where respiratory virus was detected, 3 (27%) later developed an upper respiratory tract infection, from the same virus. Pediatr Blood Cancer 2013; 60: 149–151.