Prospective evaluation of a new automated nucleic acid extraction system using routine clinical respiratory specimens

The aim of the study was to evaluate the MagNA Pure 96? nucleic acid extraction system using clinical respiratory specimens for identifying viruses by qualitative real‐time PCR assays. Three extraction methods were tested, that is, the MagNA Pure LC?, the COBAS Ampliprep?, and the MagNA Pure 96? with 10‐fold dilutions of an influenza A(H1N1)pdm09 sample. Two hundred thirty‐nine respiratory specimens, 35 throat swabs, 164 nasopharyngeal specimens, and 40 broncho‐alveolar fluids, were extracted with the MagNA Pure 96? and the COBAS Ampliprep? instruments. Forty COBAS Ampliprep? positive samples were also tested. Real‐time PCRs were used to identify influenza A and influenza A(H1N1)pdm09, rhinovirus, enterovirus, adenovirus, varicella zoster virus, cytomegalovirus, and herpes simplex virus. Similar results were obtained on RNA extracted from dilutions of influenza A(H1N1)pdm09 with the three systems: the MagNA Pure LC?, the COBAS Ampliprep?, and the MagNA Pure 96?. Data from clinical respiratory specimens extracted with the MagNA Pure 96? and COBAS Ampliprep? instruments were in 98.5% in agreement (P < 0.0001) for influenza A and influenza A(H1N1)pdm09. Data for rhinovirus were in 97.3% agreement (P < 0.0001) and in 96.8% agreement for enterovirus. They were in 100% agreement for adenovirus. Data for cytomegalovirus and HSV1‐2 were in 95.2% agreement (P < 0.0001). The MagNA Pure 96? instrument is easy‐to‐use, reliable, and has a high throughput for extracting total nucleic acid from respiratory specimens. These extracts are suitable for molecular diagnosis with any type of real‐time PCR assay. J. Med. Virol. 84:906–911, 2012. © 2012 Wiley Periodicals, Inc.     

Comparison of five methods for extraction of Legionella pneumophila from respiratory specimens

The efficiencies of five commercially available nucleic acid extraction methods were evaluated for the recovery of a standardized inoculum of Legionella pneumophila in respiratory specimens (sputum and bronchoalveolar lavage [BAL] specimens). The concentrations of Legionella DNA recovered from sputa with the automated MagNA Pure (526,200 CFU/ml) and NucliSens (171,800 CFU/ml) extractors were greater than those recovered with the manual methods (i.e., Roche High Pure kit [133,900 CFU/ml], QIAamp DNA Mini kit [46,380 CFU/ml], and ViralXpress kit [13,635 CFU/ml]). The rank order was the same for extracts from BAL specimens, except that for this specimen type the QIAamp DNA Mini kit recovered more than the Roche High Pure kit.     

Direct detection of highly pathogenic avian influenza A/H5N1 virus from mud specimens

Contaminated mud and soil may play roles as reservoirs and sources of transmission for avian influenza A virus. However, the persistence of highly pathogenic avian influenza (HPAI) H5N1 virus in soil or mud has not been well documented, and specific methods of H5N1 virus detection in mud and soil specimens have not been described. The aim of this work was to evaluate the capacities of five different commercial kits and one elution-concentration technique to extract nucleic acids from H5N1 virus and to detect infectious viral particles in experimentally infected mud specimens. The viral RNA detection thresholds for the QIAamp kit, Trizol LS and the MagNA Pure LC kit were 5 × 10(2)RNA copies per gram of mud. Trizol reagent and the RNA PowerSoil? kit were unsuccessful in recovering any viral RNA from mud. When the elution-concentration technique was performed prior to nucleic acid extraction, the performance of the MagNA Pure kit increased to a level that allowed the detection of H5N1 nucleic acids in naturally contaminated environmental samples that had previously tested negative after direct extraction using commercial kits. The levels of detection of infectious virus after inoculation into embryonated eggs were higher in concentrates than in eluates.     

Comparison of the NucliSens easyMAG and Qiagen BioRobot 9604 nucleic acid extraction systems for detection of RNA and DNA respiratory viruses in nasopharyngeal aspirate samples

The NucliSens easyMAG and BioRot 9604 automated nucleic acid extraction systems were evaluated and compared with the manual QIAamp (Qiagen) extraction method for their abilities to extract nucleic acid from nasopharyngeal aspirate samples for the detection of RNA and DNA respiratory viruses. The nucleic acids recovered by all three methods gave comparable sensitivities in PCR tests, and the three methods gave comparable viral loads. There was no evidence of residual PCR inhibitors and no evidence of PCR cross-contamination.     

Detection of herpes simplex virus DNA in genital and dermal specimens by LightCycler PCR after extraction using the IsoQuick, MagNA Pure, and BioRobot 9604 methods

We evaluated two automated systems, MagNA Pure (Roche Molecular Biochemicals, Indianapolis, Ind.) and BioRobot 9604 (Qiagen, Inc., Chatsworth, Calif.) as effective replacements for the manual IsoQuick method (Orca Research, Inc., Bothell, Wash.) for extraction of herpes simplex virus (HSV) DNA from dermal and genital tract specimens prior to analysis by LightCycler PCR. Of 198 specimens (152 genital, 46 dermal), 92 (46.2%) were positive for HSV DNA by LightCycler PCR after automated extraction of specimens with either the MagNA Pure or BioRobot 9604 instrument. The manual IsoQuick method yielded HSV DNA (total n = 95) from three additional specimens that were negative by the automated method (P = 0.25, sign test). Although the mean numbers of LightCycler PCR cycles required to reach positivity differed statistically significantly among all three of the methods of extraction, the estimated means differed by no more than 1.5 cycles (P < 0.05). Seventy (76%) of the 92 specimens that were LightCycler PCR positive by all three extraction methods were also positive by shell vial cell culture assay. HSV DNA was detected by a lower LightCycler PCR cycle number (26.1 cycles) in specimens culture positive for the virus than in culture-negative samples (33.3 cycles) (P < 0.0001). The manual IsoQuick and automated MagNA Pure and BioRobot 9604 methods provide standardized, reproducible extraction of HSV DNA for LightCycler PCR. The decision to implement a manual versus an automated procedure depends on factors such as costs related to the number of specimens processed rather than on the minimal differences in the technical efficiency of extraction of nucleic acids among these methods.     

Characterization of virus isolates by particle-associated nucleic acid PCR

Diagnostic virus isolation is still frequently used, particularly from respiratory tract secretions. Testing positive virus cultures for all possible viruses is time-consuming, and unexpected or unknown viruses may escape detection. Therefore, a novel random PCR approach was developed that allows sequence-independent amplification of viral nucleic acids from virus isolation-positive cultures. Selectivity for viral sequences is obtained by preferential isolation of nucleic acids that are particle associated and resistant to nucleases. Using primers with a degenerated 3' end, the isolated nucleic acids are amplified and the randomly amplified PCR products are cloned and sequenced. As proof of the concept, the PAN-PCR approach was applied to supernatants of coxsackievirus B3 and murine adenovirus type 1-infected cells. Enterovirus and adenovirus sequences were obtained, demonstrating that the random PCR approach allows detection of RNA and DNA viruses. As a first application of this PAN-PCR approach, we characterized a virus isolate from mouth-washing material of a patient with chronic fatigue syndrome and high antibody titers to coxsackievirus B2. The virus isolate had tested negative for enteroviruses and respiratory viruses (influenza viruses A and B, parainfluenza virus types 1 to 3, respiratory syncytial virus, and adenovirus) by immunofluorescence and PCR. Particle-associated, nuclease-resistant RNA and DNA were prepared from the supernatant of infected cells. The DNA and the reverse-transcribed RNA were randomly amplified, and PCR products were cloned and sequenced. Of 25 sequences obtained from the DNA preparation, 24 contained herpes simplex virus type 1 (HSV-1) sequences from 14 different loci spread over the HSV-1 genome. This result was confirmed by using a standard diagnostic HSV-PCR, demonstrating that the PAN-PCR correctly identified the virus isolate. Although the identification of HSV-1 in mouth-washing material is not surprising in retrospect, it clearly demonstrates the applicability of the PAN-PCR approach. This method should be particularly useful for characterizing virus isolates that have tested negative for all expected viruses and for identifying unknown viruses.     

Acceleration of the direct identification of Staphylococcus aureus versus coagulase-negative staphylococci from blood culture material: a comparison of six bacterial DNA extraction methods

To accelerate differentiation between Staphylococcus aureus and coagulase-negative staphylococci (CNS), this study aimed to compare six different DNA extraction methods from two commonly used blood culture materials, i.e. BACTEC and BacT/ALERT. Furthermore, we analysed the effect of reduced blood culture incubation for the detection of staphylococci directly from blood culture material. A real-time polymerase chain reaction (PCR) duplex assay was used to compare the six different DNA isolation protocols on two different blood culture systems. Negative blood culture material was spiked with methicillin-resistant S. aureus (MRSA). Bacterial DNA was isolated with automated extractor easyMAG (three protocols), automated extractor MagNA Pure LC (LC Microbiology Kit M^Grade), a manual kit MolYsis Plus and a combination of MolYsis Plus and the easyMAG. The most optimal isolation method was used to evaluate reduced bacterial incubation times. Bacterial DNA isolation with the MolYsis Plus kit in combination with the specific B protocol on the easyMAG resulted in the most sensitive detection of S. aureus, with a detection limit of 10 CFU/ml, in BacT/ALERT material, whereas using BACTEC resulted in a detection limit of 100 CFU/ml. An initial S. aureus or CNS load of 1 CFU/ml blood can be detected after 5 h of incubation in BacT/ALERT 3D by combining the sensitive isolation method and the tuf LightCycler assay.     

Evaluation of the combination of the NucliSENS easyMAG® and the EasyQ® applications for the detection of Mycoplasma pneumoniae and Chlamydia pneumoniae in respiratory tract specimens

Mycoplasma pneumoniae and Chlamydia pneumoniae are respiratory tract pathogens frequently involved in community-acquired pneumonia, but are fastidious microorganisms. Their direct detection mainly requires molecular amplification techniques. A nucleic acid extraction system, NucliSENS easyMAG®, and a real-time nucleic acid sequence-based amplification (NASBA) technique, NucliSENS EasyQ®, were recently developed by bioMérieux to detect both bacteria. The aim of our study was to compare the easyMAG/EasyQ combination with our in-house combination, MagNA Pure extraction (Roche) and real-time polymerase chain reaction (PCR), to detect both bacteria in respiratory tract specimens. The analytical specificities of both combinations were similar. A higher analytical sensitivity was found for C. pneumoniae using the easyMAG/EasyQ combination, since the easyMAG/EasyQ system detected nucleic acid extracts 10⁶ times more diluted than the in-house combination. Both combinations were equivalent when detecting M. pneumoniae in positive respiratory tract samples. Finally, the easyMAG/EasyQ combination is a potential useful tool for the detection of both bacteria regarding sensitivity, specificity, monitoring, and standardization of the procedure.     

Comparison of automated and manual nucleic acid extraction methods for detection of enterovirus RNA

Automated nucleic acid extraction is an attractive alternative to labor-intensive manual methods. We compared two automated methods, the BioRobot M48 instrument (Qiagen, Inc.) and MagNA Pure (Roche Applied Sciences) methods, to two manual methods, the QIAamp Viral RNA Mini kit (Qiagen) and TRIzol (Invitrogen), for the extraction of enterovirus RNA. Analytical sensitivity was assessed by dilution analysis of poliovirus type 2 Sabin in cerebrospinal fluid. The sensitivity of PCR was equivalent after RNA extraction with QIAamp, BioRobot M48, and MagNA Pure. All 18 replicates of 100 PFU/ml were detected after extraction by the four methods. Fewer replicates of each successive dilution were detected after extraction by each method. At 10(-1) PFU/ml, 17 of 18 replicates were positive by QIAamp, 15 of 18 replicates were positive by BioRobot M48, and 12 of 18 replicates were positive by MagNA Pure; at 10(-2) PFU/ml, 4 of 17 replicates were positive by QIAamp, 2 of 18 replicates were positive by BioRobot M48, and 0 of 18 replicates were positive by MagNA Pure. At 10(-3) PFU/ml, no replicates were detected. Evaluation of TRIzol was discontinued after nine replicates due to a trend of lower sensitivity (at 10(-3) PFU/ml eight of nine replicates were positive at 100 PFU/ml, four of nine replicates were positive at 10(-1) PFU/ml, and zero of nine replicates were positive at 10(-2) PFU/ml). Concordant results were obtained in 24 of 28 clinical specimens after extraction by all methods. No evidence of contamination was observed after extraction by automated instruments. The data indicate that the sensitivity of enterovirus PCR is largely similar after extraction by QIAamp, BioRobot M48, and MagNA Pure; a trend of decreased sensitivity was observed after TRIzol extraction. However, the results of enterovirus PCR were largely concordant in patient samples, indicating that the four extraction methods are suitable for detection of enteroviruses in clinical specimens.     

Comparative Assessment of Automated Nucleic Acid Sample Extraction Equipment for Biothreat Agents

Magnetic beads offer superior impurity removal and nucleic acid selection over older extraction methods. The performances of nucleic acid extraction of biothreat agents in blood or buffer by easyMAG, MagNA Pure, EZ1 Advanced XL, and Nordiag Arrow were evaluated. All instruments showed excellent performance in blood; however, the easyMAG had the best precision and versatility.     

Evaluation of automated sample preparation and quantitative PCR LCx assay for determination of human immunodeficiency virus type 1 RNA

Efforts have been made to achieve full automation of molecular assays for quantitative detection of human immunodeficiency virus type 1 (HIV-1). In the present study, the Abbott LCx HIV RNA Quantitative assay was evaluated in conjunction with automated HIV-1 RNA extraction on the MagNA Pure LC instrument and compared to the conventional LCx HIV RNA Quantitative assay, which uses a manual nucleic acid extraction protocol. Accuracy, linearity, and interassay and intra-assay variations were determined. The performance of the assay in a routine clinical laboratory was tested with a total of 105 clinical specimens. When the accuracy of the LCx HIV RNA Quantitative assay with the automated sample preparation protocol was tested, all results were found to be within +/- 0.5 log unit of the expected results. Determination of linearity resulted in a quasilinear curve over 3.5 log units. For determination of interassay variation, coefficients of variation were found to be between 21 and 66% for the LCx HIV RNA Quantitative assay with the automated sample preparation protocol and between 10 and 69% for the LCx HIV RNA Quantitative assay with manual sample preparation. For determination of intra-assay variation, coefficients of variation were found to be between 7 and 25% for the LCx HIV RNA Quantitative assay with the automated sample preparation protocol and between 7 and 19% for the LCx HIV RNA Quantitative assay with manual sample preparation. When clinical samples were tested by the LCx HIV RNA Quantitative assay with the automated sample preparation protocol and the results were compared with those of the LCx HIV RNA Quantitative assay with manual sample preparation, 95% of all positive results were found to be within +/- 0.5 log unit. In conclusion, the assay with automated sample preparation proved to be suitable for use in the routine diagnostic laboratory and required significantly less hands-on time.     

The impact of influenza viruses on hospitalizations in infants younger than two years old during epidemics of respiratory syncytial virus infection

In order to evaluate the association of influenza viruses with hospitalizations for acute respiratory infection in infants younger than two years old during epidemics of respiratory syncytial virus infection, we studied 512 nasal washes from this population. The samples were obtained from 1997 to 2000. A total of 337 viruses were isolated: 264 respiratory syncytial viruses, 62 influenza viruses, eight parainfluenza viruses, two adenovirus and one rhinovirus. Hospitalizations for acute respiratory infection were owing to influenza and respiratory syncytial viruses in 18.3% vs. 78.3% of all cases, and 32.5% vs. 65.8%, respectively, in the group of infants between 6 months and 2 years old.     

Detection of respiratory viruses and atypical bacteria in children's tonsils and adenoids

The tonsils and adenoids of 44 children were analyzed for the detection of respiratory syncytial virus, influenza virus, parainfluenza virus, adenovirus, Chlamydophila pneumoniae, and Mycoplasma pneumoniae. Viruses were detected in 47.7% of the children and 37.3% of the specimens, with adenovirus and parainfluenza viruses being the most frequently detected microorganisms.     

北京地区2010年10月至2011年4月急性呼吸道感染病毒流行特征分析

目的 通过对北京地区2010年10月-2011年4月急性呼吸道感染病毒病原谱构成及流行特征分析,为临床诊断、治疗和呼吸道传染病的预防控制提供病原学依据.方法 随机采集北京市五家哨点医院接诊的急性呼吸道感染病例咽拭子样本425份,利用多重RT-PCR和PCR方法进行甲型流感病毒、乙型流感病毒、呼吸道合胞病毒、副流感病毒、...     

Evaluation of dried whole blood spots obtained by heel or finger stick as an alternative to venous blood for diagnosis of human immunodeficiency virus type 1 infection in vertically exposed infants in the routine diagnostic laboratory

The diagnostic accuracy of the Roche Amplicor human immunodeficiency virus type 1 DNA PCR assay (version 1.5) on DNA extracted from pediatric heel prick dried blood spots using Roche MagNA Pure nucleic acid purification technology was evaluated. The methodologies transfer successfully from the labor-intensive research laboratory to the high-throughput automated routine laboratory.     

Utility of a respiratory virus panel containing a monoclonal antibody pool for screening of respiratory specimens in nonpeak respiratory syncytial virus season.

An indirect immunofluorescence respiratory virus panel containing monoclonal antibodies directed against respiratory syncytial virus, parainfluenza virus types 1, 2, and 3, adenovirus, and influenza viruses A and B was used to screen specimens in the nonpeak respiratory syncytial virus seasons in 1989 and 1990. The results indicate that the respiratory virus panel is fairly sensitive (79%) and very specific (99%) for the detection of respiratory viruses directly in clinical specimens during these time periods.     

Comparative evaluation of two automated systems for nucleic acid extraction of BK virus: NucliSens easyMAG versus BioRobot MDx

The objective of this study was to compare the performance of two automated nucleic acid extraction systems. Specifically, the NucliSens easyMAG system (bioMerieux, Marcy l’Etoile, France), which incorporates magnetic bead technology, was compared with the BioRobot MDx system (Qiagen GmbH, Hilden, Germany), which uses a silica membrane-based method of nucleic acid extraction. Nucleic acids from the BK virus (BKV DNA) were extracted from 98 plasma and 57 urine specimens using the Real-Q BKV quantitation kit (Biosewoom, Seoul, Korea). Failed PCR was defined as negative BKV DNA results having more than 36 threshold cycles of the internal control by the manufacturer's instruction. The PCR failure rate of nucleic acids isolated from plasma samples using the MDx system was similar to that of plasma samples processed using the easyMAG system (2.0% and 3.1%, respectively). The PCR failure rate of nucleic acids isolated from urine samples using the MDx system was higher than that of urine samples processed using the easyMAG system (33.3% and 12.5%, respectively). These data suggest that the PCR inhibitors present in urine specimens are removed more efficiently by the easyMAG system. Among amplified specimens, the discordant results obtained from the two systems revealed that the BKV DNA load ranged from 2.3 log₁₀ copies/mL to 4.6 log₁₀ copies/mL. Of the 25 urine specimens that yielded BKV DNA by both extraction systems, 15 specimens (60.0%) yielded higher BKV DNA loads by the easyMAG system, indicating that the easyMAG system extracted nucleic acid more efficiently than did the MDx system. In conclusion, the easyMAG method outperformed the MDx method when used to extract BKV DNA from urine samples. Magnetic bead-based extraction methods such as the easyMAG system are therefore preferable for the quantitation of viral DNA in urine.     

Automated extraction of genomic DNA from medically important yeast species and filamentous fungi by using the MagNA Pure LC system

A fully automated assay was established for the extraction of DNA from clinically important fungi by using the MagNA Pure LC instrument. The test was evaluated by DNA isolation from 23 species of yeast and filamentous fungi and by extractions (n = 28) of serially diluted Aspergillus fumigatus conidia (10(5) to 0 CFU/ml). Additionally, DNA from 67 clinical specimens was extracted and compared to the manual protocol. The detection limit of the MagNA Pure LC assay of 10 CFU corresponded to the sensitivity when DNA was extracted manually; in 9 of 28 runs, we could achieve a higher sensitivity of 1 CFU/ml blood, which was found to be significant (p 相似文献   

Evaluation and clinical validation of an alcohol-based transport medium for preservation and inactivation of respiratory viruses

The clinical and public health importance of influenza and other respiratory viruses has accelerated the development of highly sensitive molecular diagnostics, but data are limited regarding preanalytical stages of diagnostic testing. We evaluated CyMol, an alcohol-based transport medium, for its ability to maintain specimen integrity for up to 21 days of storage at various temperatures; for its ability to inactivate virus; and for its compatibility with antigen- or nucleic acid-based diagnostics for respiratory viruses in clinical samples. In mock-infected samples, both universal transport medium (UTM-RT) and CyMol maintained equivalent viral quantities for at least 14 days at room temperature or colder, whereas a dry swab collection maintained viral quantities only if refrigerated or frozen. CyMol inactivated influenza virus within 5 min of sample immersion. UTM-RT- and CyMol-collected nasal swab specimens from 73 symptomatic students attending a campus health clinic were positive for a respiratory virus in 56.2% of subjects by multiplex PCR testing, including influenza A and B viruses, rhinovirus/enteroviruses, coronaviruses, respiratory syncytial virus, parainfluenza viruses, metapneumovirus, and adenovirus. Detection by PCR was equivalent in UTM-RT- and CyMol-collected specimens and in self- and staff-collected swabs. Direct fluorescent antibody (DFA) testing was substantially less sensitive (23.3%) than multiplex PCR, and DFA testing from UTM-RT-collected swabs was more sensitive than that from CyMol-collected swabs. These data indicate that an alcohol-based transport medium such as CyMol preserves respiratory virus integrity, rapidly inactivates viruses, and is compatible with PCR-based respiratory diagnostics.