商业化 HIV-1 耐药性检测的基因分型性能评估。

Genotyping performance evaluation of commercially available HIV-1 drug resistance test.

机构信息

Nigerian Institute of Medical Research, Lagos, Nigeria.

Jos University Teaching Hospital, Jos, Nigeria.

出版信息

PLoS One. 2018 Jun 28;13(6):e0198246. doi: 10.1371/journal.pone.0198246. eCollection 2018.

DOI:10.1371/journal.pone.0198246

PMID:29953436

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6023177/

Abstract

BACKGROUND

ATCC HIV-1 drug resistance test kit was designed to detect HIV-1 drug resistance (HIVDR) mutations in the protease and reverse transcriptase genes for all HIV-1 group M subtypes and circulating recombinant forms. The test has been validated for both plasma and dried blood spot specimen types with viral load (VL) of ≥1000 copies/ml. We performed an in-country assessment on the kit to determine the genotyping sensitivity and its accuracy in detecting HIVDR mutations using plasma samples stored under suboptimal conditions.

METHODS

Among 572 samples with VL ≥1000 copies/ml that had been genotyped by ViroSeq assay, 183 were randomly selected, including 85 successful genotyped and 98 unsuccessful genotyped samples. They were tested with ATCC kits following the manufacturer's instructions. Sequence identity and HIVDR patterns were analysed with Stanford University HIV Drug Resistance HIVdb program.

RESULTS

Of the 183 samples, 127 (69.4%) were successfully genotyped by either method. While ViroSeq system genotyped 85/183 (46.5%) with median VL of 32,971 (IQR: 11,150-96,506) copies/ml, ATCC genotyped 115/183 (62.8%) samples with median VL of 23,068 (IQR: 7,397-86,086) copies/ml. Of the 98 unsuccessful genotyped samples with ViroSeq assay, 42 (42.9%) samples with lower median VL of 13,906 (IQR: 6,122-72,329) copies/ml were successfully genotyped using ATCC. Sequence identity analysis revealed that the sequences generated by both methods were >98% identical and yielded similar HIVDR profiles at individual patient level.

CONCLUSION

This study confirms that ATCC kit showed greater sensitivity in genotyping plasma samples stored in suboptimal conditions experiencing frequent and prolonged power outage. Thus, it is more sensitive particularly for subtypes A and A/G HIV-1 in resource-limited settings.

摘要

背景

ATCC HIV-1 耐药性检测试剂盒旨在检测 HIV-1 蛋白酶和逆转录酶基因的耐药突变，适用于所有 HIV-1 M 组亚型和循环重组形式。该检测试剂盒已通过对≥1000 拷贝/ml 病毒载量（VL）的血浆和干血斑标本类型进行了验证。我们对试剂盒进行了国内评估，以确定其在使用储存条件不佳的血浆样本时的基因分型灵敏度及其检测 HIVDR 突变的准确性。

方法

在通过 ViroSeq 检测 VL≥1000 拷贝/ml 的 572 个样本中，随机选择了 183 个样本，包括 85 个成功基因分型样本和 98 个未成功基因分型样本。他们按照制造商的说明使用 ATCC 试剂盒进行了测试。使用斯坦福大学 HIV 耐药性 HIVdb 程序分析序列同一性和 HIVDR 模式。

结果

在 183 个样本中，127 个（69.4%）通过两种方法中的任意一种成功进行了基因分型。ViroSeq 系统对 85/183（46.5%）个样本进行了基因分型，中位 VL 为 32971（IQR：11150-96506）拷贝/ml，而 ATCC 对 115/183（62.8%）个样本进行了基因分型，中位 VL 为 23068（IQR：7397-86086）拷贝/ml。在 ViroSeq 检测未成功基因分型的 98 个样本中，42 个（42.9%）中位 VL 较低的样本（13906（IQR：6122-72329）拷贝/ml）使用 ATCC 成功进行了基因分型。序列同一性分析表明，两种方法生成的序列均有≥98%的同一性，在个体患者水平上产生了相似的 HIVDR 谱。

结论

本研究证实，ATCC 试剂盒在基因分型储存条件不佳、经常且长时间停电的血浆样本方面具有更高的灵敏度。因此，在资源有限的环境中，它对亚型 A 和 A/G HIV-1 更为敏感。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b18f/6023177/cfa224b137c2/pone.0198246.g001.jpg

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商业化 HIV-1 耐药性检测的基因分型性能评估。

Genotyping performance evaluation of commercially available HIV-1 drug resistance test.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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