Mehmet Yapar

Laboratory diagnosis of enteroviral infections of the central nervous system by using a nested RT-polymerase chain reaction (PCR) assay

Enteroviruses are the most common pathogens identified in infants hospitalized for suspected aseptic meningitis. Rapid detection of enterovirus infection is essential in taking the decision for treatment with antiviral agents and applying infection control measures in hospitalized pediatric patients. The purpose of this study was to compare the results of conventional virus isolation with those of enteroviral RNA detection by reverse transcription (RT)-PCR method in identical specimens from cases of suspected aseptic meningitis. Cerebrospinal fluid (CSF) samples were collected for viral examination from 68 pediatric patients with suspected aseptic meningitis from 1999 to 2002. These samples were inoculated in HeLa, Hep-2 and RD cell culture. The viral RNA was investigated by in-house RT-PCR method. The isolated viruses were typed by neutralization test. 36 of the 68 specimens were detected to be enterovirus positive by culture method, while 43 of them yielded positive results when RT-PCR method is used. Discrepancies occurred between the two methods in 15 specimens. While 11 specimens were positive by RT-PCR, these are found to be culture-negative. The isolated viruses were typed as Echovirus 30 (n: 30), Group B coxsackievirus (n: 5) and one isolate could not be typed by neutralization. Because of higher sensitivity and rapidity of RT-PCR, it is superior (p = 0.016) to virus culture of CSF for the diagnosis of enterovirus meningitis. Although the clinical usefulness of viral culture from CSF is limited, the final laboratory identification needs cultural techniques.

Comparison of regeneration results of prefabricated nerve graft, autogenous nerve graft, and vein graft in repair of nerve defects

The purpose of this study was to evaluate the effectivity of prefabricated nerve grafts in the repairing nerve defect and to compare them with the autogenous nerve graft and vein graft. Four groups were created, each containing 10 rats. First, nerve prefabrication was carried out in groups I and II during 8 weeks. For this purpose, jugular vein graft was sutured to the epineural windows on the peroneal and tibial nerve at the right side in an end‐to‐side fashion. To create neurotrophic stimulus, partial incision was performed on the nerves in group I, and gene therapy was performed by plasmid injecting to the adjacent muscles in group II. At the end of the eighth week, prefabricated nerve grafts, jugular vein, and the axons passing through it were taken. Then, gap was created on the left peroneal nerve in all groups. Defect on the peroneal nerve was repaired by using the prefabricated nerve grafts in groups I and II, the autogenous nerve graft in group III, and the vein in group IV. Assessment of nerve regeneration was performed by using electromyography. Morphological assessment was performed after follow‐up period. According to electrophysiological and morphological results, the results of first three groups were similar. There was no statistically significant difference between three groups. Prefabricated nerve graft is as effective as autogenous nerve graft, and it can be used in the repair of nerve defects as autogenous nerve graft as an alternative.

Detection of major HPVs by a new multiplex real-time PCR assay using type-specific primers.

In this study, we aimed to develop a cost-effective, practical, and sensitive method to be used for the diagnosis of HPV infections. The presence of HPV-DNA was investigated in cervical smear samples using three different methods: MY09/11 consensus PCR, TaqMan-based type-specific real-time PCR, and SYBR Green-based multiplex PCR. Of the 315 samples, 21.6% (68/315) were HPV-DNA positive by using at least one of the three methods. The relative sensitivities of MY09/11 PCR, type-specific PCR, and multiplex PCR were found to be 86.8% (59/68), 91.2% (62/68), and 91.2% (62/68), respectively. Genotyping analyses were successfully carried out in 62 of 68 HPV-DNA positive samples, and 77 isolates (8 low-risk and 69 high-risk HPV) were identified, while six samples were determined to be positive by consensus PCR only and could not be genotyped. The type distribution of the 69 high-risk HPV strains was as follows: 37.7% HPV 16, 13.0% HPV 52, 11.6% HPV 58, 7.2% HPV 18, 7.2% HPV 31, 7.2% HPV 68, 4.3% HPV 35, 4.3% HPV 39, 4.3% HPV 82, 1.4% HPV 33, and 1.4% HPV 45. Our data suggests that the diagnosis of HPV infections using only consensus PCR may lead to epidemiologically significant data loss, and that our multiplex PCR is more sensitive than consensus PCR and lower in cost than the type-specific PCR. We believe that the SYBR Green-based multiplex PCR may be useful and cost-effective for other microbiological fields. In addition, type-specific screening of HPV-DNA gives more reliable results, but it may also be used in combination with consensus PCR if the type spectrum of the test is not large enough.

Efficiency of MY09/11 consensus PCR in the detection of multiple HPV infections

Human papillomavirus (HPV) DNA testing has become an important component of cervical cancer screening programs. In this study, we aimed to evaluate the efficiency of MY09/11 consensus polymerase chain reaction (PCR) for the detection of multiple HPV infections. For this purpose, MY09/11 PCR was compared to an original TaqMan-based type-specific real-time PCR assay, which can detect 20 different HPV types. Of the 654 samples, 34.1% (223/654) were HPV DNA positive according to at least one method. The relative sensitivities of MY09/11 PCR and type-specific PCR were 80.7% (180/223) and 97.8% (218/223), respectively. In all, 352 different HPV isolates (66 low-risk and 286 high-risk or probable high-risk types) were identified in 218 samples, but 5 samples, which were positive by consensus PCR only, could not be genotyped. The distribution of the 286 high-risk or probable high-risk HPVs were as follows: 24.5% HPV-16, 8.4% HPV-52, 7.7% HPV-51, 6.3% HPV-39, 6.3% HPV-82, 5.6% HPV-35, 5.6% HPV-58, 5.6% HPV-66, 5.2% HPV-18, 5.2% HPV-68, and 19.6% the other 8 types. A single HPV type was detected in 57.3% (125/218) of the genotyped samples, and multiple HPV types were found in the remaining 42.7% (93/218). The false-negative rates of MY09/11 PCR were found to be 17.4% in single infections, 23.3% in multiple infections, and 34.6% in multiple infections that contained 3 or more HPV types, with the condition that the low-risk types HPV-6 and HPV-11 be considered as a monotype. These data suggest that broad-range PCR assays may lead to significant data loss and that type-specific PCR assays can provide accurate and reliable results during cervical cancer screening.

Stability of hepatitis C virus RNA in blood samples by TaqMan real-time PCR.

The storage conditions of blood samples for reliable results are very important in hepatitis C virus (HCV) RNA amplification tests used in routine HCV analyses. According to many studies, storage conditions could affect the RNA stability for HCV RNA detection. We have studied HCV RNA stability in blood samples stored at 4°C. Nineteen blood samples containing different HCV RNA levels were stored at 4°C and they were then analyzed by TaqMAN real‐time PCR method. HCV RNA levels remained almost stable (100%) at least for five weeks at this storage condition. However, among them, the stability period was up to 11 weeks in two of the samples. As with these findings, there was a slightly significant correlation between the positivity time and the beginning HCV RNA levels (r=0.474, P=0.040). We conclude that, blood samples can be stored at 4°C for five weeks without any significant difference in detected HCV RNA level by using TaqMan real‐time PCR. J. Clin. Lab. Anal. 24:134–138, 2010.

Multiplex Real-Time PCR Method for Simultaneous Identification and Toxigenic Type Characterization of Clostridium difficile From Stool Samples.

Background The aim of this study was to develop and validate a multiplex real-time PCR assay for simultaneous identification and toxigenic type characterization of Clostridium difficile. Methods The multiplex real-time PCR assay targeted and simultaneously detected triose phosphate isomerase (tpi) and binary toxin (cdtA) genes, and toxin A (tcdA) and B (tcdB) genes in the first and sec tubes, respectively. The results of multiplex real-time PCR were compared to those of the BD GeneOhm Cdiff assay, targeting the tcdB gene alone. The toxigenic culture was used as the reference, where toxin genes were detected by multiplex real-time PCR. Results A total of 351 stool samples from consecutive patients were included in the study. Fifty-five stool samples (15.6%) were determined to be positive for the presence of C. difficile by using multiplex real-time PCR. Of these, 48 (87.2%) were toxigenic (46 tcdA and tcdB-positive, two positive for only tcdB) and 11 (22.9%) were cdtA-positive. The sensitivity, specificity, negative predictive value (NPV), and positive predictive value (PPV) of the multiplex real-time PCR compared with the toxigenic culture were 95.6%, 98.6%, 91.6%, and 99.3%, respectively. The analytical sensitivity of the multiplex real-time PCR assay was determined to be 103colonyforming unit (CFU)/g spiked stool sample and 0.0625 pg genomic DNA from culture. Analytical specificity determined by using 15 enteric and non-clostridial reference strains was 100%. Conclusions The multiplex real-time PCR assay accurately detected C. difficile isolates from diarrheal stool samples and characterized its toxin genes in a single PCR run.

Congenital cytomegalovirus infections and glycoprotein B genotypes in live-born infants: a prevalence study in Turkey

Abstract Background: Cytomegalovirus (CMV) infections are the leading cause of infectious hearing loss and central nervous system disease among children worldwide. In this study, we aimed to determine the birth prevalence of congenital CMV infection in live-born infants in Turkey. Methods: In total, 944 consecutive live-born infants born from 926 pregnant women were included in this study. CMV-DNA was investigated in saliva samples of all newborns within the first 3 days after birth using TaqMan-based real-time PCR. Results: The birth prevalence of congenital CMV infection in live-born infants was 1.91% (18/944), and all congenitally infected infants were asymptomatic at birth. The prevalence of congenital CMV infection was 16.7% (3/18) in twin pregnancies and 1.32% (12/908) in single pregnancies (p = 0.002). Genotyping analysis showed glycoprotein B-1 (gB1) to be the most frequently detected genotype at 83.3%. Conclusion: The study results suggest that the majority of congenital CMV infection in Turkey occurs following nonprimary maternal infection. We believe that congenital CMV infection and its long-term effects have been underestimated in our country, as infected infants are usually asymptomatic at birth.

The comparative results of three different real-time PCR assays: MY09/11 primers failed to detect multiple infections -

HPV-DNA testing is widely used worldwide today and it has become an important part of cervical cancer screening programs. The aim of this study is re-evaluating the effectiveness of MY09/11 consensus primer system, which is one of the most widely used HPV-DNA tests, by using a different approach. In this study, MY09/11 consensus PCR and two different TaqMan-based type-specific PCR assays were used for investigation of the presence of 17 different HPV types in cervical smear samples. Of the 470 samples, 33.2% (156/470) were HPV-DNA positive by at least one of the three methods and remains were negative by all methods. A total of 220 different HPV isolates were identified in 149 samples by the type specific PCR, while the nine samples were positive by consensus PCR only. A single HPV type was detected in 64.4% (96/149) of the genotyped samples, and multiple HPV types were detected in the remaining 35.6% (53/149). MY09/11 PCR failed to detect 21.2% (33/156) of all HPV-DNA positive samples and the rates of false negative results were 18.75% (18/96) and 28.3% (15/53) in single and multiple infections, respectively. We conclude that highly sensitive type-specific PCR tests may be a useful tool for screening of cervical cancer.