Development of a multiplex polymerase chain reaction assay for diarrheagenic Escherichia coli and Shigella spp. and its evaluation on colonies, culture broths, and stool

Detection of diarrheagenic Escherichia coli (DEC) typically depends on identification of virulence genes from stool cultures, not on stool itself. We developed a multiplex polymerase chain reaction (PCR) assay that detects key DEC virulence genes (stx1, stx2, eae, bfpA, ipaH, LT, STh, aaiC, aatA). The assay involved a multiplex PCR reaction followed by detection of amplicon(s) using Luminex beads. The assay was evaluated on over 100 colony and broth specimens. We then evaluated the assay using DNA extracted from stool, colony pools, and Gram-negative broths, using stool spiked with known quantities of DEC. Performance of the assay on stool DNA was most quantitative, while stool broth DNA offered the lowest limit of detection. The assay was prospectively evaluated on clinical specimens in Tanzania. Stool DNA yielded higher sensitivity than colony pools compared with broth DNA as the standard. We propose using this assay to screen for DEC directly in stool or stool broths.     

Rapid and specific identification of 5 human pathogenic Vibrio species by multiplex polymerase chain reaction targeted to dnaJ gene

A multiplex polymerase chain reaction (PCR) method, specifically designed for application in routine diagnostic laboratories, was developed for identifying 5 human pathogen Vibrio species: Vibrio cholerae, Vibrio parahaemolyticus, Vibrio vulnificus, Vibrio mimicus, and Vibrio alginolyticus. This assay directed toward the dnaJ gene was tested on a total of 355 strains representing 13 Vibrio species and 17 non-Vibrio species. Specific PCR fragments were produced in isolates belonging to the 5 target species and were absent from all strains other than these 5 species and non-Vibrio strains, indicating a high specificity of this multiplex PCR. The multiplex PCR for the detection of Vibrio pathogens in clinical specimens was experimentally applied to spiked stool samples. Only 1 specific amplicon was observed, corresponding to the pathogen spiked into the stool sample. The detection limitation was 10(5) to 10(6) cells per milliliter stool. Our data showed that this method represented a robust tool for the specific and rapid detection of the 5 major pathogenic Vibrio species.     

Single-run, parallel detection of DNA from three pneumonia-producing bacteria by real-time polymerase chain reaction

A molecular assay for parallel detection of three bacteria, Chlamydia (C.) pneumoniae, Legionella (L.) spp., and Mycoplasma (M.) pneumoniae, in clinical specimens by a set of real-time polymerase chain reactions (PCRs) in a single run was evaluated. Bacterial DNAs were extracted by an automated DNA extraction protocol on the MagNA Pure LC System. Amplification and detection were done by real-time PCR on the LightCycler (LC) instrument. For amplification, specific oligonucleotides derived from the 16s rRNA genes of C. pneumoniae, L. spp., and M. pneumoniae were used. The three assays were complemented with an internal control (IC), a specially designed DNA fragment which contains the specific primer binding sites for the three PCRs. The IC was added to the samples, co-extracted, and co-amplified. Primers and hybridization probes were designed to suit one LC PCR program. LC PCRs were established, detection limits were determined, and clinical samples were tested. The detection limits were found between 5.0 and 0.5 IFU/CFU per PCR reaction for each of the bacteria. A total number of 100 clinical specimens were tested for validation of the molecular assay. Tested samples included 63 bronchoalveolar lavages (BALs) and 37 induced sputa specimens. The internal control was detected in all negative and low-positive samples; no inhibition was found throughout the whole study. Additionally, samples underwent testing by culture for L. spp., and M. pneumoniae; for C. pneumoniae, the serological microimmunofluorescence (MIF) test was used. In conclusion, the developed set of LC PCR assays permits parallel detection of C. pneumoniae, L. spp., and M. pneumoniae in a single LC run. This molecular assay may lead to accurate and early diagnosis of pneumonia produced by these three types of bacteria. The assay proved to be suitable for the high-throughput routine diagnostic laboratory.     

Basics of flow cytometry-based sterility testing of platelet concentrates

BACKGROUND: Flow cytometry (FACS) is a common technique in blood banking. It is used, for example, for the enumeration of residual white blood cells in plasma and in cellular blood products. It was investigated whether it can also be applied for sterility testing of buffy coat-derived platelet concentrates (PCs). STUDY DESIGN AND METHODS: Plasma-reduced PCs were spiked with bacteria and stored at 20 to 24 or 37 degrees C for various times. The following 10 species were used: Bacillus cereus, Enterobacter cloacae, Escherichia coli, Klebsiella pneumoniae, Propionibacterium acnes, Pseudomonas aeruginosa, Staphylococcus aureus, Staphylococcus epidermidis, Serratia marcescens, and Yersinia enterocolitica. Bacterial DNA was stained with thiazole orange. After the platelets were lysed, bacteria were enumerated by FACS. RESULTS: All bacteria species used were detectable by FACS. The lower detection limit was approximately 100 bacteria per microL, that is, 10(5) per mL. In general, the titers measured were 1.2- to 3-fold higher than those determined by colony forming assay. In one case (K. pneumoniae) in which the dot plot of the bacteria cloud overlapped with that of bacteria debris, they were consistently lower. When PC samples were inoculated with approximately 1 colony-forming unit per mL of bacteria and kept at 37 degrees C, most species were detected within 21 hours or less. Exceptions were E. cloacae and P. acnes, which were detected after 24 to 40 and 64 hours, respectively. At 20 to 24 degrees C, the detection times were strongly prolonged. CONCLUSION: Sterility testing of PCs by FACS is a feasible approach. The present data suggest incubating PC samples for 20 to 24 hours at 37 degrees C before testing. For slow-growing bacteria, the incubation period must be prolonged by 1 to 2 days.     

Comparison of culture, polymerase chain reaction (PCR), TaqMan Salmonella, and Transia Card Salmonella assays for detection of Salmonella spp. in naturally-contaminated ground chicken, ground turkey, and ground beef

Four types of assays were evaluated for the detection of Salmonella spp. in retail ground chicken (86 packages), ground turkey (104 packages), and ground beef (54 packages). Two 25 g samples from each package were separately subjected to pre-enrichment in buffered peptone water for 20 h at 37 degrees C followed by enrichment in Rappaport Vassiliadis (RV) broth for 20 h at 42 degrees C. The RV enrichments were plated onto Rambach agar, Rainbow Agar Salmonella, and XLT4 agar, and were also tested by a PCR assay targeting the Salmonella invA gene, as well as by the TaqMan Salmonella PCR assay. Additionally, the RV enrichments were tested using the Transia Card Salmonella immunoassay. Results showed that 16.8, 24.0, 28.8, and 26.4% of turkey samples were positive for Salmonella spp. by culture, PCR, TaqMan PCR, and Transia Card Salmonella assays, respectively. Eighteen, 28.5, 35.5, and 34.9% of chicken samples were positive by culture, PCR, TaqMan PCR, and Transia Card Salmonella assays, respectively, and 6.5, 6.5, 6.5, and 18.5% of ground beef samples were positive by the four assays, respectively. Analysis of the data using the kappa statistic showed that there was substantial to excellent agreement between the PCR and TaqMan PCR assays and between the PCR and culture assays (kappa coefficients ranging from 0.67 to 0.87), while there was poor to fair agreement between the results of the Transia Card Salmonella assay and the other methods (kappa coefficients ranging from 0.28 to 0.32). Overall, results showed that the PCR-based assays were more sensitive than the culture method, and the culture and PCR-based assays were more specific than the immunoassay for detection of Salmonella in ground chicken, turkey, and beef due to the occurrence of false positive results using the immunoassay.     

Real-time PCR for the detection of Dientamoeba fragilis in fecal samples

A real-time polymerase chain reaction (PCR) method targeting the 5.8S ribosomal RNA gene was developed for the detection of Dientamoeba fragilis in stool samples. The PCR also included an internal control to detect inhibition of the amplification by fecal constituents in the sample. The assay was performed on species-specific DNA controls (n=29) and a range of stool samples (n=85), and achieved high specificity and sensitivity. D. fragilis DNA could be detected in unpreserved fecal samples up to 8 weeks after storage at 4 degrees C. The use of this assay in a diagnostic laboratory offers the possibility of introducing DNA detection as a feasible technique for the routine diagnosis of intestinal D. fragilis infections.     

Activity and DNA contamination of commercial polymerase chain reaction reagents for the universal 16S rDNA real-time polymerase chain reaction detection of bacterial pathogens in blood

Universal 16S rRNA gene polymerase chain reaction (PCR) is a promising means of detecting bacteremia. Among other factors, the PCR reagents play a prominent role for obtaining a high sensitivity of detection. The reagents are ideally optimized with respect to the amplifying activity and absence of contaminating DNA. In this study, it was shown in a universal 16S rDNA real-time PCR assay that commercial PCR reagents can vary greatly among each other in these characters. Only 1 of the 5 reagents tested met the criteria of sensitive detection of pathogen DNA with a minimum of false-positive results. The reagent was validated by the detection of pathogens at low titers using bacterial DNA extracted from blood that was spiked with various Gram-positive and Gram-negative bacteria.     

应用TaqMan实时荧光-聚合酶链反应方法快速检测粪便标本空肠弯曲菌的研究

目的建立空肠弯曲菌TaqMan实时荧光-PCR方法,用于粪便标本的直接检测。方法根据空肠弯曲菌特异性基因hipO和mapA分别设计引物和探针,在对2组引物和探针进行灵敏度、特异性和重复性评价的基础上,对45例临床腹泻患者粪便标本提取DNA之后,荧光PCR检测,同时进行分离培养。 结果两组引物和探针能准确检测空肠弯曲菌菌株2株,检测限可达到10~20 cfu/ml,并与其他肠道致病菌无交叉反应。检测45份腹泻病例粪便标本,该方法检测到3份为阳性,同时进行的传统培养方法仅从该3份标本中的两份中分离到空肠弯曲菌。 结论本研究建立的TaqMan荧光PCR检测粪便标本中所携带的空肠弯曲菌灵敏度高,特异性好,能够提高粪便中空肠弯曲菌的阳性检出率和缩短检测时限。     

Evaluation of loop-mediated isothermal amplification for detection of Toxoplasma gondii in water samples and comparative findings by polymerase chain reaction and immunofluorescence test (IFT)

The development and evaluation of a 1-step single-tube accelerated loop-mediated isothermal amplification (LAMP) assay for the rapid detection of Toxoplasma in water samples is described. The method has been evaluated based on the amplification of B1 and TgOWP Toxoplasma genes, and it demonstrated a sensitivity detection limit of 0.1 tachyzoites' DNA for both genes. LAMP detection was evaluated and compared with nested polymerase chain reaction (PCR) in 26 water sample pellets spiked with known numbers of Toxoplasma oocysts. After DNA extraction, the detection sensitivity in spiked pellets was 100% by LAMP and 53.8% by PCR. Subsequently, 52 natural water samples of different origin were directly investigated by 3 assays: LAMP, PCR, and immunofluorescence test (IFT). Twenty-five (48%) of 52 have been found positive for Toxoplasma DNA by LAMP, whereas nested PCR products were generated in 7 of 52 (13.5%) water samples. All 52 water samples were negative for Toxoplasma by IFT. These data clearly indicate LAMP as a rapid, specific, and sensitive tool for the detection of Toxoplasma contamination in water samples.     

快速检测粪便中艰难梭菌的方法研究

目的建立可用于粪便中艰难梭菌快速检测的环介导恒温扩增(LAMP)方法。方法针对艰难梭菌毒素A基因,设计引物。采用LAMP对艰难梭菌和其他腹泻干扰菌及不同浓度艰难梭菌的扩增检测,对其特异性和灵敏度进行评价。同时采用LAMP和荧光定量PCR对100例疑似艰难梭菌感染的临床腹泻患者粪便进行检测,对两种方法进行比较。结果 LAMP对艰难梭菌及6种腹泻干扰菌的检测,只针对艰难梭菌有扩增,显示了较好的特异性。LAMP最低检测限为10CFU/mL,灵敏度较高。对100例临床粪便标本LAMP检测结果与荧光定量PCR比较差异无统计学意义(P>0.05,χ2=0.1429)。结论本研究建立的粪便中艰难梭菌的LAMP快速检测方法特异性好、灵敏度较高、操作简便,适用于艰难梭菌的临床快速检测及现场检测。