Clin Lab. 2021 Apr 1;67(4). doi: 10.7754/Clin.Lab.2020.200826.
Mycoplasma hominis (MH) is an opportunistic pathogen, which often causes funisitis, spontaneous abortion, and low birth weight. However, current laboratory methods are time-consuming, labor-intensive, or require specialized laboratory instruments. Recombinase polymerase amplification (RPA) technology is a rapidly developing field because of the significance for clinical application and commercial value. Few studies have reported the use of RPA to detect MH. In this study, we developed the rapid MH detection assay, which may be potentially used as a sensitive point-of-care testing (POCT) in clinic.
Primers based on the MH 16SrRNA gene and gap gene were explored and screened out. The probe of RPA-LFD was designed based on the optimal primer and confirmed. The reaction conditions of temperature and time for RPA were optimized. The sensitivity and specificity of the analysis were explored. A total of 60 clinical specimens were used to verify the efficiency of the two methods.
The optimal reaction conditions were determined as 15 minutes and 39°C. The sensitivity of RPA was 10-6 ng for MH, which is 100,000 times more sensitive than traditional PCR. Moreover, we observed another six non-target reproductive tract common pathogens without amplification products. Furthermore, we found that there was no significant difference between RPA and the cultivation method (p > 0.05). These two methods were in good agreement (κ = 0.938) when detecting clinical specimens.
A new method for sensitive and rapid detection of MH based on RPA was successfully developed, which can be applied in large-scale screening and as a supplementary method to classical methods.
人型支原体(MH)是一种机会致病菌,常引起胎儿膜炎、自然流产和低体重儿。然而,目前的实验室方法耗时、费力,或者需要专门的实验室仪器。重组酶聚合酶扩增(RPA)技术因其具有重要的临床应用和商业价值而得到迅速发展。很少有研究报道使用 RPA 检测 MH。本研究开发了快速 MH 检测方法,该方法可能具有作为临床即时检测(POCT)的潜力。
探索并筛选出基于 MH 16SrRNA 基因和间隙基因的引物。根据最佳引物设计并验证 RPA-LFD 的探针。优化 RPA 的温度和时间反应条件。探讨分析的灵敏度和特异性。共使用 60 份临床标本验证两种方法的效率。
确定最佳反应条件为 15 分钟和 39°C。RPA 的灵敏度为 MH 10-6 ng,比传统 PCR 灵敏 100,000 倍。此外,我们观察到另外六种非目标生殖道常见病原体没有扩增产物。此外,我们发现 RPA 与培养方法之间没有显著差异(p>0.05)。这两种方法在检测临床标本时具有良好的一致性(κ=0.938)。
成功开发了一种基于 RPA 的 MH 灵敏快速检测新方法,可应用于大规模筛查,并可作为经典方法的补充方法。
