Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-3 (of 3 Records) |
Query Trace: Miles SJ[original query] |
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Validation of improved automated nucleic acid extraction methods for direct detection of polioviruses for global polio eradication
Miles SJ , Harrington C , Sun H , Deas A , Oberste MS , Nix WA , Vega E , Gerloff N . J Virol Methods 2024 326 114914 Polioviruses (PV), the main causative agent of acute flaccid paralysis (AFP), are positive-sense single-stranded RNA viruses of the family Picornaviridae. As we approach polio eradication, accurate and timely detection of poliovirus in stool from AFP cases becomes vital to success for the eradication efforts. Direct detection of PV from clinical diagnostic samples using nucleic acid (NA) extraction and real-time reverse transcriptase polymerase chain reaction (rRT-PCR) instead of the current standard method of virus isolation in culture, eliminates the long turn-around time to diagnosis and the need for high viral titer amplification in laboratories. An essential component of direct detection of PV from AFP surveillance samples is the efficient extraction of NA. Potential supply chain issues and lack of vendor presence in certain areas of the world necessitates the validation of multiple NA extraction methods. Using retrospective PV-positive surveillance samples (n=104), two extraction kits were compared to the previously validated Zymo Research Quick-RNA™ Viral Kit. The Roche High Pure Viral RNA Kit, a column-based manual extraction method, and the MagMaX™ Pathogen RNA/DNA kit used in the automated Kingfisher Flex system were both non-inferior to the Zymo kit, with similar rates of PV detection in pivotal rRT-PCR assays, such as pan-poliovirus (PanPV), poliovirus serotype 2 (PV2), and wild poliovirus serotype 1 (WPV1). These important assays allow the identification and differentiation of PV genotypes and serotypes and are fundamental to the GPLN program. Validation of two additional kits provides feasible alternatives to the current piloted method of NA extraction for poliovirus rRT-PCR assays. |
Response to vaccine-derived polioviruses detected through environmental surveillance, Guatemala, 2019
Rodríguez R , Juárez E , Estívariz CF , Cajas C , Rey-Benito G , Amézquita MOB , Miles SJ , Orantes O , Freire MC , Chévez AE , Signor LC , Sayyad L , Jarquin C , Cain E , Villalobos Rodríguez AP , Mendoza L , Ovando CA , Mayorga HJB , Gaitán E , Paredes A , Belgasmi-Allen H , Gobern L , Rondy M . Emerg Infect Dis 2023 29 (8) 1524-1530 Guatemala implemented wastewater-based poliovirus surveillance in 2018, and three genetically unrelated vaccine-derived polioviruses (VDPVs) were detected in 2019. The Ministry of Health (MoH) response included event investigation through institutional and community retrospective case searches for acute flaccid paralysis (AFP) during 2018-2020 and a bivalent oral polio/measles, mumps, and rubella vaccination campaign in September 2019. This response was reviewed by an international expert team in July 2021. During the campaign, 93% of children 6 months <7 years of age received a polio-containing vaccine dose. No AFP cases were detected in the community search; institutional retrospective searches found 37% of unreported AFP cases in 2018‒2020. No additional VDPV was isolated from wastewater. No evidence of circulating VDPV was found; the 3 isolated VDPVs were classified as ambiguous VDPVs by the international team of experts. These detections highlight risk for poliomyelitis reemergence in countries with low polio vaccine coverage. |
CaF: A sensitive, low-cost filtration method for detecting polioviruses and other enteroviruses in residual waters
Belgasmi H , Miles SJ , Sayyad L , Wong K , Harrington C , Gerloff N , Coulliette-Salmond AD , Guntapong R , Tacharoenmuang R , Ayutthaya AIN , Apostol LNG , Valencia MLD , Burns CC , Benito GR , Vega E . Front Environ Sci 2022 10 Acute flaccid paralysis (AFP) surveillance has been used to identify polio cases and target vaccination campaigns since the inception of the Global Poliovirus Eradication Initiative (GPEI) in 1988. To date, only Afghanistan and Pakistan have failed to interrupt wild poliovirus transmission. Circulation of vaccine-derived polioviruses (VDPV) continues to be a problem in high-risk areas of the Eastern Mediterranean, African, and Southeast Asian regions. Environmental surveillance (ES) is an important adjunct to AFP surveillance, helping to identify circulating polioviruses in problematic areas. Stools from AFP cases and contacts (>200,000 specimens/year) and ES samples (>642 sites) are referred to 146 laboratories in the Global Polio Laboratory Network (GPLN) for testing. Although most World Health Organization supported laboratories use the two-phase separation method due to its simplicity and effectiveness, alternative simple, widely available, and cost-effective methods are needed. The CAF (Concentration and Filtration Elution) method was developed from existing filtration methods to handle any type of sewage or residual waters. At $1020 US per sample for consumable materials, CAF is cost effective, and all equipment and reagents are readily available from markets and suppliers globally. The report describes the results from a parallel study of CAF method with the standard two-phase separation method. The study was performed with samples collected from five countries (Guatemala, Hati, Thailand, Papua New Guinea, and the Philippines), run in three laboratories(United States, Thailand and in the Philippines) to account for regional and sample-to-sample variability. Samples from each site were divided into two 500ml aliquots and processed by both methods, with no other additional concentration or manipulation. The results of 338 parallel-tested samples show that the CAF method is more sensitive than the two-phase separation method for detection of non-polio enteroviruses (p-value < 0.0001) and performed as well as the two-phase separation method for polioviruses detection with no significant difference (p-value > 0.05). The CAF method is a robust, sensitive, and cost-effective method for isolating enteroviruses from residual waters. Copyright 2022 Belgasmi, Miles, Sayyad, Wong, Harrington, Gerloff, Coulliette-Salmond, Guntapong, Tacharoenmuang, Ayutthaya, Apostol, Valencia, Burns, Benito and Vega. |
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