Underestimation of HIV Type 1 Drug Resistance Mutations: Results from the ENVA-2 Genotyping Proficiency Program

Schuurman, Rob; Brambilla, Donald; Groot, Tom de; Huang, De-Bin; Land, Sally; Bremer, James W.; Benders, Ireen; Boucher, Charles A.

doi:10.1089/088922202753472801

Cited by 98 publications

(77 citation statements)

References 21 publications

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“…Complete genomes of HPV cloned into plasmid vectors had been provided to Lund University by the respective proprietors with written approval for their use in this proficiency panel: Ethel-Michele de Villiers (HPV types 6,11,16,18, and 45), Gérard Orth (HPV types 33, 39, 66, and 68), Saul Silverstein (HPV type 51), Attila Lörincz (HPV types 31, 35, and 56), Wayne Lancaster (HPV type 52), and Toshihiko Matsukura (HPV types 58 and 59). The agreements allowed distribution of the plasmids only for the performance of this WHO proficiency study.…”

Section: Methodsmentioning

confidence: 99%

“…Purified plasmids containing cloned genomic DNAs for HPV types 6,11,16,18,31,33,35,39,45,51,52,56,58,59, 66, and 68 were diluted to a stock concentration of 10 8 genome equivalents/l in TE buffer (10 mM Tris, 1 mM EDTA, pH 8.0) to be used for preparation of 43 samples. Human placenta DNA (Sigma-Aldrich; no.…”

Section: Methodsmentioning

confidence: 99%

“…At the WHO meeting held in Geneva, Switzerland, from 15 to 17 August 2005, an expert group recommended the establishment of a global HPV laboratory network (HPV LabNet) to contribute to improving the quality of laboratory services for effective surveillance and HPV vaccination impact monitoring. Major activities within the HPV LabNet include the development of international standard reagents and standard operating procedures (SOPs) and the development of internationally comparable quality assurance methods (5, 26).International proficiency panels are already widely used for several microorganisms, including hepatitis A, B, and C viruses; herpes simplex virus (HSV); and human immunodeficiency virus (HIV) (15,18,24). As there is no natural source of biological material that could be used to generate type-specific HPV international standards (ISs), the first WHO international collaborative study of the detection of HPV DNA examined the feasibility of using recombinant HPV DNA plasmids as standards, focusing on HPV16 and HPV18 (13).…”

mentioning

confidence: 99%

“…International proficiency panels are already widely used for several microorganisms, including hepatitis A, B, and C viruses; herpes simplex virus (HSV); and human immunodeficiency virus (HIV) (15,18,24). As there is no natural source of biological material that could be used to generate type-specific HPV international standards (ISs), the first WHO international collaborative study of the detection of HPV DNA examined the feasibility of using recombinant HPV DNA plasmids as standards, focusing on HPV16 and HPV18 (13).…”

mentioning

confidence: 99%

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Global Proficiency Study of Human Papillomavirus Genotyping

2010

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-66, and -68). Detection of at least 50 IU of HPV16 or HPV18 DNA and of 500 genome equivalents (GE) of the other 14 HPV types (in samples with single and multiple HPV types) was considered proficient. Fifty-four laboratories worldwide submitted a total of 84 data sets. More than 21 HPV-genotyping assays were used. Commonly used methods were Linear Array, Lineblot, InnoLiPa, Clinical Array, type-specific real-time PCR, PCR-Luminex and microarray assays. The major oncogenic HPV types (HPV16 and -18) were detected in 89.7% (70/78) and 92.2% (71/77) of the data sets, respectively. HPV types 56, 59, and 68 were the least commonly detected types (in less than 80% of the data sets). Twenty-eight data sets reported multiple false-positive results and were considered nonproficient. In conclusion, we found that international proficiency studies, traceable to international standards, allow standardized quality assurance for different HPV-typing assays and enable the comparison of data generated from different laboratories worldwide.Human papillomavirus (HPV) infection has been established as the major cause of cervical cancer (2). Epidemiological studies have classified genital HPV types into high-and low-risk HPV types, reflecting their association with invasive cancer (19). The most important high-risk types, HPV16 and HPV18, account for about 70% of all invasive cervical cancers worldwide. The next most common HPV types on all continents are HPV31, -33, -35, -45, -52, and -58, found in approximately 20% of cervical cancers (19).An accurate and internationally comparable HPV DNA detection and typing methodology is an essential component in the evaluation of HPV vaccines and in effective implementation and monitoring of HPV vaccination programs. The genotyping assays used today differ in their performance with regard to type-specific detection rates (10). As the methodology for quality assurance and evaluation of assay performance is not standardized, comparisons between different studies that use different assays is particularly difficult (10).The World Health Organization (WHO) establishes international biological standard materials and reference reagents for substances of biological origin used in prophylaxis and in therapy or diagnosis of human diseases (http://www.who.int /biologicals/reference_preparations/en/). At the WHO meeting held in Geneva, Switzerland, from 15 to 17 August 2005, an expert group recommended the establishment of a global HPV laboratory network (HPV LabNet) to contribute to improving the quality of laboratory services for effective surveillance and HPV vaccination impact monitoring. Major activities within the HPV LabNet include the development of international standard reagents and standard operating procedures (SOPs) and the development of internationally comparable quality assurance methods (5, 26).International proficiency panels are already widely used for several microorganisms, including hepatitis A, B, and C viruses; herpes simplex virus (HSV); and human immunodeficiency virus (HIV) (15,...

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Global Proficiency Study of Human Papillomavirus Genotyping

2010

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“…6 In addition, consensus genotypes can be indeterminate when subpopulations are variable at the codons of interest, or when insertions or deletions cause overlapping reading frames; both are common in the HIV-1 envelope. Next-generation sequencing may prove to be the best method of detection, as it is not only sensitive, but can also give a fairly accurate estimation of the percent X4 in a population.…”

Section: Introductionmentioning

confidence: 99%

Development of a Novel Codon-Specific Polymerase Chain Reaction for the Detection of CXCR4-Utilizing HIV Type 1 Subtype B

McLaughlin¹,

Swenson

et al. 2013

AIDS Research and Human Retroviruses

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Insight concerning the switch in HIV-1 coreceptor use will lead to a better understanding of HIV-1 pathogenesis and host-virus dynamics. Predicting CXCR4 utilization by analyzing HIV-1 envelope consensus sequences is highly specific, but minority variants in the viral population are often missed resulting in low sensitivity. Commercial phenotypic assays are costly, and the development of sensitive in-house phenotypic assays to detect CXCR4-using HIV may not be feasible for some laboratories. A sensitive, inexpensive genotyping assay was developed to detect viral sequences associated with CXCR4-utilizing virus (X4). Codon-specific primer pairs were used to detect X4-associated codons at five positions in the HIV-1 envelope V3 loop (11, 13, 24, 25, and 32). Sixty plasma samples from HIV-1-infected individuals were analyzed by consensus sequencing and codonspecific PCR (CS-PCR). Forty-six of these were also phenotyped by Trofile or Enhanced Sensitivity Trofile (ESTA). CS-PCR detected X4 variants 17% more often than 11/24/25 consensus sequencing alone (n = 60), 30% more often than Trofile (n = 27), and in a limited data set, 16% more often than ESTA (n = 19). CS-PCR combined with consensus sequencing had approximately 80% concordance with ESTA.

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Modifications and substitutions of the RNA extraction module in the ViroSeq™ HIV‐1 genotyping system version 2: Effects on sensitivity and complexity of the assay

Stürmer

Berger

Doerr

2003

Journal of Medical Virology

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Genotypic testing for HIV-1 resistance to anti-retroviral drugs has become accepted widely as a routine method to guide anti-retroviral therapy. However, implementation into routine high-throughput laboratory diagnosis is difficult due to the complexity of the assay. A commercially available assay is the ViroSeq HIV-1 Genotyping System (Applied Biosystems, Weiterstadt, Germany). We modified and substituted the RNA extraction module to optimize the proportion of samples amplified successfully as follows: 1 ml plasma was concentrated by ultracentrifugation and extracted according to the manufacturer's instructions (Kit), by substituting the lysis buffer (Roche, Roche Diagnostics GmbH, Mannheim, Germany), and by using the QIAamp Viral RNA Kit (Qiagen GmbH, Hilden, Germany) with elution volumes of 60 (Q60) or 50 micro l (Q50). Overall Q50 showed a higher success rate (97%) than the other extraction modules used (range 88-91%). In samples with a viral load range of 1,000-4,999 copies/ml, Q50 was superior (95 vs. 65% to 83%), while in samples with a viral load range of 5,000-9,999 copies/ml or those with 10,000 or more copies/ml, the success rate of the extraction procedures showed no significant differences. In 18 samples, which were negative using the Kit or Roche extraction, Q60 resulted in 7/18 positive results; in addition the Q50 was successful in amplifying 7/10 of the Q60 negative samples. When investigating samples with a measurable viral load of less than 1,000 copies/ml or lower, Q50 had the highest success rate with 80% compared to the other procedures (33-63%). A statistically significant new cut-off could be defined for Q50 at a value of 250 copies/ml. The results showed clearly that the ViroSeq System is suitable for analyzing the HIV-1 genotype over a wide range of viral loads but could be improved significantly when substituting the RNA extraction module with Q50 without using a nested PCR protocol. This is of great importance as it avoids further time- and cost-intensive steps.

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Underestimation of HIV Type 1 Drug Resistance Mutations: Results from the ENVA-2 Genotyping Proficiency Program

Cited by 98 publications

References 21 publications

Global Proficiency Study of Human Papillomavirus Genotyping

Global Proficiency Study of Human Papillomavirus Genotyping

Development of a Novel Codon-Specific Polymerase Chain Reaction for the Detection of CXCR4-Utilizing HIV Type 1 Subtype B

Modifications and substitutions of the RNA extraction module in the ViroSeq™ HIV‐1 genotyping system version 2: Effects on sensitivity and complexity of the assay

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