Abstract
Present study was aimed to examine the diagnostic utility of polymerase chain reaction (PCR) and nested PCR techniques for the detection of Mycobacterium tuberculosis (MTB) DNA in samples from patients with extra pulmonary tuberculosis (EPTB). In total 80 formalin-fixed, paraffin-embedded (FFPE) samples comprising 70 samples with definite diagnosis of EPTB and 10 samples from known non- EPTB on the basis of histopathology examination, were included in the study. PCR amplification targeting IS6110, rpoB gene and nested PCR targeting the rpoB gene were performed on the extracted DNAs from 80 FFPE samples. The strong positive samples were directly sequenced. For negative samples and those with weak band in nested-rpoB PCR, TA cloning was performed by cloning the products into the plasmid vector with subsequent sequencing. The 95% confidence intervals (CI) for the estimates of sensitivity and specificity were calculated for each method. Fourteen (20%), 34 (48.6%), and 60 (85.7%) of the 70 positive samples confirmed by histopathology, were positive by rpoB-PCR, IS6110-PCR, and nested-rpoB PCR, respectively. By performing TA cloning on samples that yielded weak (n = 8) or negative results (n = 10) in the PCR methods, we were able to improve their quality for later sequencing. All samples with weak band and 7 out of 10 negative samples, showed strong positive results after cloning. So nested-rpoB PCR cloning revealed positivity in 67 out of 70 confirmed samples (95.7%). The sensitivity of these combination methods was calculated as 95.7% in comparison with histopathology examination. The CI for sensitivity of the PCR methods were calculated as 11.39–31.27% for rpoB-PCR, 36.44–60.83% for IS6110- PCR, 75.29–92.93% for nested-rpoB PCR, and 87.98–99.11% for nested-rpoB PCR cloning. The 10 true EPTB negative samples by histopathology, were negative by all tested methods including cloning and were used to calculate the specificity of the applied methods. The CI for 100% specificity of each PCR method were calculated as 69.15–100%. Our results indicated that nested-rpoB PCR combined with TA cloning and sequencing is a preferred method for the detection of MTB DNA in EPTB samples with high sensitivity and specificity which confirm the histopathology results.
Highlights
Despite the great advances in diagnosis and treatment of tuberculosis (TB), Mycobacterium tuberculosis (MTB) is still regarded as a major public health concern (Nahid et al, 2006; Tsara et al, 2009)
Seventy samples were belonged to patients with definite diagnosis of extra pulmonary tuberculosis (EPTB) made on the basis of histopathology examination of FFPE tissues as gold standard method showing necrotizing granulomatous, to assess the sensitivity of polymerase chain reaction (PCR) analyses, and ten samples were from known non-EPTB samples as true negatives to estimate the specificity of PCR technique
From the total 70 samples confirmed as EPTB positive according to the histopathology examination, 14 samples (20%) were positive by PCR amplification of the rpoB gene, while by IS6110- based amplification, 34 samples (48.6%) and by nestedrpoB PCR, 60 samples (85.7%) were positive for the presence of MTB complex (MTBC) (Figure 1)
Summary
Despite the great advances in diagnosis and treatment of tuberculosis (TB), Mycobacterium tuberculosis (MTB) is still regarded as a major public health concern (Nahid et al, 2006; Tsara et al, 2009). Among EP specimens, formalin-fixed, paraffin-embedded (FFPE) blocks can be used to study the tubercular infections These samples cannot be cultured and may be unsuitable for PCR, because chemical alterations of the DNA (as degradation of the DNA) reduces the sensitivity of the PCR, but it can be improved by changing the amplification parameters such as using various targets with different sizes (Barcelos et al, 2008). In most MTB strains, there are 10 to 16 copies of IS6110 repetitive element (Piersimoni and Scarparo, 2003), though in some strains, strains from Southeast Asia, there is no copy of this sequence or their number is negligible (Lok et al, 2002) In such strains, the rpoB gene can be used as a target for identification of MTBC. Yun et al (2005) used nested rpoB-PCR combined with TA cloning to improve the detection of MTB in joint biopsy sections successfully
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