评估并验证一种基于酒精的运输介质，用于保存和灭活呼吸道病毒。

Evaluation and clinical validation of an alcohol-based transport medium for preservation and inactivation of respiratory viruses.

机构信息

St Joseph’s Healthcare, Hamilton, Ontario, Canada.

出版信息

J Clin Microbiol. 2011 Jun;49(6):2138-42. doi: 10.1128/JCM.00327-11. Epub 2011 Apr 20.

DOI:10.1128/JCM.00327-11

PMID:21508158

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3122718/

Abstract

The clinical and public health importance of influenza and other respiratory viruses has accelerated the development of highly sensitive molecular diagnostics, but data are limited regarding preanalytical stages of diagnostic testing. We evaluated CyMol, an alcohol-based transport medium, for its ability to maintain specimen integrity for up to 21 days of storage at various temperatures; for its ability to inactivate virus; and for its compatibility with antigen- or nucleic acid-based diagnostics for respiratory viruses in clinical samples. In mock-infected samples, both universal transport medium (UTM-RT) and CyMol maintained equivalent viral quantities for at least 14 days at room temperature or colder, whereas a dry swab collection maintained viral quantities only if refrigerated or frozen. CyMol inactivated influenza virus within 5 min of sample immersion. UTM-RT- and CyMol-collected nasal swab specimens from 73 symptomatic students attending a campus health clinic were positive for a respiratory virus in 56.2% of subjects by multiplex PCR testing, including influenza A and B viruses, rhinovirus/enteroviruses, coronaviruses, respiratory syncytial virus, parainfluenza viruses, metapneumovirus, and adenovirus. Detection by PCR was equivalent in UTM-RT- and CyMol-collected specimens and in self- and staff-collected swabs. Direct fluorescent antibody (DFA) testing was substantially less sensitive (23.3%) than multiplex PCR, and DFA testing from UTM-RT-collected swabs was more sensitive than that from CyMol-collected swabs. These data indicate that an alcohol-based transport medium such as CyMol preserves respiratory virus integrity, rapidly inactivates viruses, and is compatible with PCR-based respiratory diagnostics.

摘要

流感和其他呼吸道病毒的临床和公共卫生重要性加速了高灵敏度分子诊断的发展，但有关诊断检测前分析阶段的数据有限。我们评估了 CyMol，一种基于酒精的运输介质，用于评估其在各种温度下储存长达 21 天的标本完整性的能力；评估其灭活病毒的能力；以及评估其在临床样本中用于呼吸道病毒的抗原或核酸基诊断的兼容性。在模拟感染的样本中，通用运输介质（UTM-RT）和 CyMol 在室温或更低温度下至少 14 天都能保持相当数量的病毒，而干燥拭子采集仅在冷藏或冷冻时才能保持病毒数量。CyMol 可在样本浸入后 5 分钟内灭活流感病毒。UTM-RT 和 CyMol 采集了 73 名在校园健康诊所就诊的有症状学生的鼻拭子标本，通过多重 PCR 检测，56.2%的患者标本为呼吸道病毒阳性，包括流感 A 和 B 病毒、鼻病毒/肠道病毒、冠状病毒、呼吸道合胞病毒、副流感病毒、副黏液病毒和腺病毒。在 UTM-RT 和 CyMol 采集的标本以及自我和工作人员采集的拭子中，PCR 检测结果相当。直接荧光抗体（DFA）检测的敏感性明显较低（23.3%），而 UTM-RT 采集的拭子中的 DFA 检测比 CyMol 采集的拭子中的 DFA 检测更敏感。这些数据表明，基于酒精的运输介质如 CyMol 可保持呼吸道病毒的完整性，迅速灭活病毒，并且与基于 PCR 的呼吸道诊断兼容。

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