Haemophilus influenzae is a major human pathogenic bacterium, resulting in a series of diseases, such as pneumonia, bacteremia, meningitis. However, it is hard to diagnose H. influenzae quickly. In this study, the multiple cross displacement amplification (MCDA) and nanoparticle-based lateral flow biosensor (LFB) (MCDA-LFB) were combined to detect H. influenzae, which has been proven to be reliable, rapid, and not complicated. On the basis of H. influenzae outer membrane protein P6 gene, 10 specific primers were designed. The best MCDA condition was 61°C for 1 h. The sensitivity of H. influenzae-MCD-LFB assay showed, in the pure cultures, the minimum concentration of genomic DNA templates was 100 fg. The specificity of H. influenzae-MCD-LFB assay showed only H. influenzae templates were detected, and no cross-reactivity was found in non-H. influenzae isolates and other Haemophilus species. In 56 sputum samples, with MCDA-LFB method and PCR detection, 21 samples were positive, which was in consistent with the traditional culture method. The accuracy of diagnosis of MCDA-LFB, in comparison with the traditional culture method and PCR detection, can reach 100%, indicating that the MCDA-LFB assay gains an advantage over the cultured-based method for target pathogen detection. In conclusion, the MCDA-LFB assay is suitable for the sensitive, rapid, and specific detection of H. influenzae, which might be used as a potential diagnostic tool for H. influenzae in basic and clinical laboratories.
Keywords: Haemophilus influenzae; MCDA-LFB; nanoparticle-based biosensor; potential diagnostic tool; rapid detection.
Copyright © 2021 Cao, Liang, Wang, Cao, Liu, Li, Cao and Guo.