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Implications of a circulating vaccine-derived poliovirus in Nigeria.尼日利亚循环疫苗衍生脊髓灰质炎病毒的影响。
N Engl J Med. 2010 Jun 24;362(25):2360-9. doi: 10.1056/NEJMoa0910074.
2
Progress toward interruption of wild poliovirus transmission - worldwide, 2009.向野生脊灰病毒传播的阻断迈进——全球,2009 年。
MMWR Morb Mortal Wkly Rep. 2010 May 14;59(18):545-50.
3
Persistence of nucleic acid markers of health-relevant organisms in seawater microcosms: implications for their use in assessing risk in recreational waters.海水微宇宙中与健康相关生物体核酸标记物的持久性:对其在评估娱乐用水风险中的应用的影响。
Water Res. 2009 Nov;43(19):4929-39. doi: 10.1016/j.watres.2009.05.047. Epub 2009 Jun 13.
4
Vaccine-derived poliovirus (VDPV): Impact on poliomyelitis eradication.疫苗衍生脊髓灰质炎病毒(VDPV):对根除脊髓灰质炎的影响。
Vaccine. 2009 May 5;27(20):2649-52. doi: 10.1016/j.vaccine.2009.02.071. Epub 2009 Mar 3.
5
Rapid group-, serotype-, and vaccine strain-specific identification of poliovirus isolates by real-time reverse transcription-PCR using degenerate primers and probes containing deoxyinosine residues.使用含有次黄嘌呤脱氧核苷残基的简并引物和探针,通过实时逆转录聚合酶链反应对脊髓灰质炎病毒分离株进行快速的群特异性、血清型特异性和疫苗株特异性鉴定。
J Clin Microbiol. 2009 Jun;47(6):1939-41. doi: 10.1128/JCM.00702-09. Epub 2009 Apr 22.
6
Randomized trial of inactivated and live polio vaccine schedules in Guatemalan infants.危地马拉婴儿灭活脊髓灰质炎疫苗和减毒活脊髓灰质炎疫苗接种程序的随机试验。
J Infect Dis. 2007 Sep 1;196(5):692-8. doi: 10.1086/520546. Epub 2007 Jul 23.
7
Shedding and reversion of oral polio vaccine type 3 in Mexican vaccinees: comparison of mutant analysis by PCR and enzyme cleavage to a real-time PCR assay.墨西哥疫苗接种者中口服脊髓灰质炎3型疫苗的脱落与回复:PCR和酶切突变分析与实时PCR检测方法的比较
J Clin Microbiol. 2007 Aug;45(8):2419-25. doi: 10.1128/JCM.02268-06. Epub 2007 Jun 20.
8
Effect of different vaccination schedules on excretion of oral poliovirus vaccine strains.不同疫苗接种程序对口服脊髓灰质炎疫苗毒株排泄的影响。
J Infect Dis. 2005 Dec 15;192(12):2092-8. doi: 10.1086/498172. Epub 2005 Nov 8.
9
Persistence of oral polio vaccine virus after its removal from the immunisation schedule in New Zealand.新西兰在停用口服脊髓灰质炎疫苗后该疫苗病毒的持续存在情况。
Lancet. 2005;366(9483):394-6. doi: 10.1016/S0140-6736(05)66386-6.
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Genomic analysis of vaccine-derived poliovirus strains in stool specimens by combination of full-length PCR and oligonucleotide microarray hybridization.通过全长聚合酶链反应和寡核苷酸微阵列杂交相结合的方法对粪便标本中疫苗衍生脊髓灰质炎病毒株进行基因组分析。
J Clin Microbiol. 2005 Jun;43(6):2886-94. doi: 10.1128/JCM.43.6.2886-2894.2005.

利用一种新型实时 PCR 检测方法,检测在墨西哥全国免疫日之后,粪便和污水样本中口服脊髓灰质炎疫苗的脱落和回复情况。

Use of a novel real-time PCR assay to detect oral polio vaccine shedding and reversion in stool and sewage samples after a mexican national immunization day.

机构信息

Division of Infectious Diseases and Geographic Medicine, Stanford University School of Medicine, Stanford, California 94305-5208, USA.

出版信息

J Clin Microbiol. 2011 May;49(5):1777-83. doi: 10.1128/JCM.02524-10. Epub 2011 Mar 16.

DOI:10.1128/JCM.02524-10
PMID:21411577
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3122635/
Abstract

During replication, oral polio vaccine (OPV) can revert to neurovirulence and cause paralytic poliomyelitis. In individual vaccinees, it can acquire specific revertant point mutations, leading to vaccine-associated paralytic poliomyelitis (VAPP). With longer replication, OPV can mutate into vaccine-derived poliovirus (VDPV), which causes poliomyelitis outbreaks similar to those caused by wild poliovirus. After wild poliovirus eradication, safely phasing out vaccination will likely require global use of inactivated polio vaccine (IPV) until cessation of OPV circulation. Mexico, where children receive routine IPV but where OPV is given biannually during national immunization days (NIDs), provides a natural setting to study the duration of OPV circulation in a population primarily vaccinated with IPV. We developed a real-time PCR assay to detect and distinguish revertant and nonrevertant OPV serotype 1 (OPV-1), OPV-2, and OPV-3 from RNA extracted directly from stool and sewage. Stool samples from 124 children and 8 1-liter sewage samples from Orizaba, Veracruz, Mexico, collected 6 to 13 weeks after a NID were analyzed. Revertant OPV-1 was found in stool at 7 and 9 weeks, and nonrevertant OPV-2 and OPV-3 were found in stool from two children 10 weeks after the NID. Revertant OPV-1 and nonrevertant OPV-2 and -3 were detected in sewage at 6 and 13 weeks after the NID. Our real-time PCR assay was able to detect small amounts of OPV in both stool and sewage and to distinguish nonrevertant and revertant serotypes and demonstrated that OPV continues to circulate at least 13 weeks after a NID in a Mexican population routinely immunized with IPV.

摘要

在复制过程中,口服脊髓灰质炎疫苗(OPV)可能会恢复神经毒性并导致麻痹性脊髓灰质炎。在个别疫苗接种者中,它可以获得特定的回复点突变,导致与疫苗相关的麻痹性脊髓灰质炎(VAPP)。随着复制时间的延长,OPV 可能会突变为疫苗衍生的脊髓灰质炎病毒(VDPV),导致类似于野生脊髓灰质炎病毒引起的脊髓灰质炎暴发。在野生脊髓灰质炎病毒根除后,安全地逐步淘汰疫苗接种可能需要在全球范围内使用灭活脊髓灰质炎疫苗(IPV),直到 OPV 停止流通。墨西哥的儿童接受常规的 IPV 接种,但在国家免疫日(NIDs)期间每半年接种一次 OPV,为研究主要接种 IPV 的人群中 OPV 的流通时间提供了自然环境。我们开发了一种实时 PCR 检测方法,用于从直接从粪便和污水中提取的 RNA 中检测和区分回复突变 OPV 血清型 1(OPV-1)、OPV-2 和 OPV-3 以及非回复突变 OPV-1、OPV-2 和 OPV-3。从墨西哥韦拉克鲁斯州奥里萨巴市的 124 名儿童和 8 个 1 升污水样本中采集了 NID 后 6 至 13 周的粪便样本进行分析。在 NID 后 7 周和 9 周,在粪便中发现了回复突变 OPV-1,在 NID 后 10 周,从两名儿童的粪便中发现了非回复突变 OPV-2 和 OPV-3。在 NID 后 6 周和 13 周,在污水中检测到回复突变 OPV-1 和非回复突变 OPV-2 和 -3。我们的实时 PCR 检测方法能够在粪便和污水中检测到少量 OPV,并区分非回复突变和回复突变血清型,表明在常规接种 IPV 的墨西哥人群中,NID 后至少 13 周内 OPV 仍在继续传播。