An Optimal Transport Medium for SARS-CoV-2 Detection in the Direct Method of Rapid Microfluidic PCR System.

IF 0.9 4区医学 Q4 MEDICINE, RESEARCH & EXPERIMENTAL Yonago acta medica Pub Date : 2024-10-21 eCollection Date: 2024-11-01 DOI:10.33160/yam.2024.11.003

Miyako Takata, Masaki Nakamoto, Tsuyoshi Kitaura, Kensaku Okada, Hiroko Endou, Athok Shofiudin Ma'arif, Yukari Nishikawa, Kengo Mukuda, Shota Morishita, Hiromi Murota, Akira Yamasaki, Seiji Kageyama, Naoto Burioka, Hiroki Chikumi

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Abstract

Background: Recently developed rapid real-time reverse transcription PCR (RT-PCR) systems adopting microfluidic thermal cycling technology are ideal for point-of-care (POC) testing for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Because the RNA extraction step before real-time RT-PCR is rate-limiting, a direct RNA extraction method (direct method) that adopts chemical viral lysis and eliminates RNA purification steps is preferable for rapid real-time RT-PCR. In the direct method, selecting the transport medium is essential because it may be introduced into subsequent real-time RT-PCR steps, but might inhibit PCR. However, the influence of transport medium on the combination of the direct method and rapid real-time RT-PCR has been yet unstudied. In the present study, we examined the influence of various transport mediums when combining the direct method and rapid real-time RT-PCR of GeneSoC^® (GeneSoC^® RT-PCR), the recently developed compact PCR system that adapts novel microfluidic thermal cycling technology.

Methods: To explore the influence of the transport medium on the GeneSoC^® RT-PCR, the concordance of the RNA extraction and direct method was evaluated in the clinical samples collected in viral transport medium (VTM) or eSwab^®. The sensitivity of GeneSoC^® RT-PCR combined with the direct method was assessed using spiked samples in generic (H₂O and PBS) or commercially available transport media (VTM and eSwab^®). Analytical sensitivity was examined using clinical specimens collected from the VTM and eSwab^®. The inhibitory effect of PCR inhibitors on clinical specimens was assessed using clinical samples diluted 1,000 times.

Results: While only 1 copy/reaction of RNA was detected in H₂O and eSwab^® of the spiked samples, a minimum of 5 copies/reaction was detected in PBS (-) and VTM. Among the clinical specimens tested using the direct method, the detection of viral RNA was unstable in the samples containing less than 100 copies/reaction viral RNA in VTM, whereas less than 10 copies/reaction viral RNA were detected in eSwab^®. The positive, negative, and overall concordance between the RNA extraction and the direct method was 84%, 100%, and 85%, respectively, in eSwab^® samples, whereas the values were 35%, 100%, and 38%, respectively, in VTM samples. When the clinical samples were diluted 1,000 times, GeneSoC^® RT-PCR could detect as low as 1.15 copies/reaction RNA using direct method, and the sensitivity was comparable to that of RNA extraction.

Conclusion: The combination of the direct method and microfluidic rapid PCR machine GeneSoC^® has a high sensitivity for detecting SARS-CoV-2 RNA in clinical samples with eSwab^® transport medium.

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快速微流控 PCR 系统直接法检测 SARS-CoV-2 的最佳运输介质

背景：最近开发的快速实时反转录 PCR（RT-PCR）系统采用了微流控热循环技术，非常适合用于严重急性呼吸系统综合征冠状病毒 2（SARS-CoV-2）的床旁（POC）检测。由于实时 RT-PCR 前的 RNA 提取步骤限制了速度，因此采用化学病毒裂解法、省去 RNA 纯化步骤的直接 RNA 提取法（直接法）更适合用于快速实时 RT-PCR。在直接法中，运输介质的选择至关重要，因为它可能会被引入后续的实时 RT-PCR 步骤，但也可能会抑制 PCR。然而，运输介质对直接法和快速实时 RT-PCR 结合使用的影响尚未得到研究。在本研究中，我们研究了在结合 GeneSoC® （GeneSoC® RT-PCR）的直接法和快速实时 RT-PCR 时各种运输介质的影响，GeneSoC® RT-PCR 是最近开发的紧凑型 PCR 系统，采用了新型微流控热循环技术：为了探究运输介质对 GeneSoC® RT-PCR 的影响，我们在病毒运输介质（VTM）或 eSwab® 中采集的临床样本中评估了 RNA 提取和直接方法的一致性。使用普通（H2O 和 PBS）或市售运输介质（VTM 和 eSwab®）中的加标样本评估了 GeneSoC® RT-PCR 结合直接法的灵敏度。使用从 VTM 和 eSwab® 采集的临床样本对分析灵敏度进行了检测。使用稀释 1000 倍的临床样本评估了 PCR 抑制剂对临床样本的抑制作用：结果：在加标样本的 H2O 和 eSwab® 中仅检测到 1 个/反应拷贝的 RNA，而在 PBS (-) 和 VTM 中至少检测到 5 个/反应拷贝的 RNA。在使用直接法检测的临床样本中，在 VTM 中检测到的病毒 RNA 低于 100 个拷贝/反应，而在 eSwab® 中检测到的病毒 RNA 低于 10 个拷贝/反应，病毒 RNA 的检测结果不稳定。在 eSwab® 样本中，RNA 提取法和直接法的阳性、阴性和总体一致性分别为 84%、100% 和 85%，而在 VTM 样本中分别为 35%、100% 和 38%。当临床样本稀释 1000 倍时，GeneSoC® RT-PCR 使用直接法可以检测到低至 1.15 个拷贝/反应的 RNA，灵敏度与 RNA 提取法相当：结论：将直接法和微流控快速 PCR 机 GeneSoC® 结合使用，对使用 eSwab® 运输介质的临床样本中 SARS-CoV-2 RNA 的检测具有很高的灵敏度。

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来源期刊

Yonago acta medica MEDICINE, RESEARCH & EXPERIMENTAL-

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Yonago Acta Medica (YAM) is an electronic journal specializing in medical sciences, published by Tottori University Medical Press, 86 Nishi-cho, Yonago 683-8503, Japan. The subject areas cover the following: molecular/cell biology; biochemistry; basic medicine; clinical medicine; veterinary medicine; clinical nutrition and food sciences; medical engineering; nursing sciences; laboratory medicine; clinical psychology; medical education. Basically, contributors are limited to members of Tottori University and Tottori University Hospital. Researchers outside the above-mentioned university community may also submit papers on the recommendation of a professor, an associate professor, or a junior associate professor at this university community. Articles are classified into four categories: review articles, original articles, patient reports, and short communications.