Last data update: Dec 09, 2024. (Total: 48320 publications since 2009)
Records 1-13 (of 13 Records) |
Query Trace: Penaranda S[original query] |
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Validation of the bag-mediated filtration system for environmental surveillance of poliovirus in Nairobi, Kenya
Fagnant-Sperati CS , Ren Y , Zhou NA , Komen E , Mwangi B , Hassan J , Chepkurui A , Nzunza R , Nyangao J , van Zyl WB , Wolfaardt M , Matsapola PN , Ngwana FB , Jeffries-Miles S , Coulliette-Salmond A , Peñaranda S , Vega E , Shirai JH , Kossik AL , Beck NK , Boyle DS , Burns CC , Taylor MB , Borus P , Scott Meschke J . J Appl Microbiol 2020 130 (3) 971-981 AIMS: This study compared the bag-mediated filtration system (BMFS) and standard WHO two-phase separation methods for poliovirus (PV) environmental surveillance, examined factors impacting PV detection, and monitored Sabin-like (SL) PV type 2 presence with withdrawal of oral polio vaccine type 2 (OPV2) in April 2016. METHODS AND RESULTS: Environmental samples were collected in Nairobi, Kenya (Sept 2015-Feb 2017), concentrated via BMFS and two-phase separation methods, then assayed using the WHO PV isolation algorithm and intratypic differentiation diagnostic screening kit. SL1, SL2, and SL3 were detected at higher rates in BMFS than two-phase samples (p<0.05). In BMFS samples, SL PV detection did not significantly differ with volume filtered, filtration time, or filter shipment time (p>0.05), while SL3 was detected less frequently with higher shipment temperatures (p=0.027). SL2 was detected more frequently before OPV2 withdrawal in BMFS and two-phase samples (p<1x10(-5) ). CONCLUSIONS: PV was detected at higher rates with the BMFS, a method that includes a secondary concentration step, than using the standard WHO two-phase method. SL2 disappearance from the environment was commensurate with OPV2 withdrawal. SIGNIFICANCE AND IMPACT OF THE STUDY: The BMFS offers comparable or improved PV detection under the conditions in this study, relative to the two-phase method. |
Haiti poliovirus environmental surveillance
Coulliette-Salmond AD , Alleman MM , Wilnique P , Rey-Benito G , Wright HB , Hecker JW , Miles S , Penaranda S , Lafontant D , Corvil S , Francois J , Rossignol E , Stanislas M , Gue E , Faye PC , Castro CJ , Schmidt A , Ng TFF , Burns CC , Vega E . Am J Trop Med Hyg 2019 101 (6) 1240-1248 Poliovirus (PV) environmental surveillance was established in Haiti in three sites each in Port-au-Prince and Gonaives, where sewage and fecal-influenced environmental open water channel samples were collected monthly from March 2016 to February 2017. The primary objective was to monitor for the emergence of vaccine-derived polioviruses (VDPVs) and the importation and transmission of wild polioviruses (WPVs). A secondary objective was to compare two environmental sample processing methods, the gold standard two-phase separation method and a filter method (bag-mediated filtration system [BMFS]). In addition, non-polio enteroviruses (NPEVs) were characterized by next-generation sequencing using Illumina MiSeq to provide insight on surrogates for PVs. No WPVs or VDPVs were detected at any site with either concentration method. Sabin (vaccine) strain PV type 2 and Sabin strain PV type 1 were found in Port-au-Prince, in March and April samples, respectively. Non-polio enteroviruses were isolated in 75-100% and 0-58% of samples, by either processing method during the reporting period in Port-au-Prince and Gonaives, respectively. Further analysis of 24 paired Port-au-Prince samples confirmed the detection of a human NPEV, and echovirus types E-3, E-6, E-7, E-11, E-19, E-20, and E-29. The comparison of the BMFS filtration method to the two-phase separation method found no significant difference in sensitivity between the two methods (mid-P-value = 0.55). The experience of one calendar year of sampling has informed the appropriateness of the initially chosen sampling sites, importance of an adequate PV surrogate, and robustness of two processing methods. |
Feasibility of the bag-mediated filtration system for environmental surveillance of poliovirus in Kenya
Zhou NA , Fagnant-Sperati CS , Komen E , Mwangi B , Mukubi J , Nyangao J , Hassan J , Chepkurui A , Maina C , van Zyl WB , Matsapola PN , Wolfaardt M , Ngwana FB , Jeffries-Miles S , Coulliette-Salmond A , Penaranda S , Shirai JH , Kossik AL , Beck NK , Wilmouth R , Boyle DS , Burns CC , Taylor MB , Borus P , Meschke JS . Food Environ Virol 2019 12 (1) 35-47 The bag-mediated filtration system (BMFS) was developed to facilitate poliovirus (PV) environmental surveillance, a supplement to acute flaccid paralysis surveillance in PV eradication efforts. From April to September 2015, environmental samples were collected from four sites in Nairobi, Kenya, and processed using two collection/concentration methodologies: BMFS (> 3 L filtered) and grab sample (1 L collected; 0.5 L concentrated) with two-phase separation. BMFS and two-phase samples were analyzed for PV by the standard World Health Organization poliovirus isolation algorithm followed by intratypic differentiation. BMFS samples were also analyzed by a cell culture independent real-time reverse transcription polymerase chain reaction (rRT-PCR) and an alternative cell culture method (integrated cell culture-rRT-PCR with PLC/PRF/5, L20B, and BGM cell lines). Sabin polioviruses were detected in a majority of samples using BMFS (37/42) and two-phase separation (32/42). There was statistically more frequent detection of Sabin-like PV type 3 in samples concentrated with BMFS (22/42) than by two-phase separation (14/42, p = 0.035), possibly due to greater effective volume assayed (870 mL vs. 150 mL). Despite this effective volume assayed, there was no statistical difference in Sabin-like PV type 1 and Sabin-like PV type 2 detection between these methods (9/42 vs. 8/42, p = 0.80 and 27/42 vs. 32/42, p = 0.18, respectively). This study demonstrated that BMFS can be used for PV environmental surveillance and established a feasible study design for future research. |
Field performance of two methods for detection of poliovirus in wastewater samples, Mexico 2016-2017
Estivariz CF , Perez-Sanchez EE , Bahena A , Burns CC , Gary HEJr , Garcia-Lozano H , Rey-Benito G , Penaranda S , Castillo-Montufar KV , Nava-Acosta RS , Meschke JS , Oberste MS , Lopez-Martinez I , Diaz-Quinonez JA . Food Environ Virol 2019 11 (4) 364-373 To enhance our ability to monitor poliovirus circulation and certify eradication, we evaluated the performance of the bag-mediated filtration system (BMFS) against the two-phase separation (TPS) method for concentrating wastewater samples for poliovirus detection. Sequential samples were collected at two sites in Mexico; one L was collected by grab and ~ 5 L were collected and filtered in situ with the BMFS. In the laboratory, 500 mL collected by grab were concentrated using TPS and the sample contained in the filter of the BMFS was eluted without secondary concentration. Concentrates were tested for the presence of poliovirus and non-poliovirus enterovirus (NPEV) using Global Poliovirus Laboratory Network standard procedures. Between February 16, 2016, and April 18, 2017, 125 pairs of samples were obtained. Collectors spent an average (+/- standard deviation) of 4.3 +/- 2.2 min collecting the TPS sample versus 73.5 +/- 30.5 min collecting and filtering the BMFS sample. Laboratory processing required an estimated 5 h for concentration by TPS and 3.5 h for elution. Sabin 1 poliovirus was detected in 37 [30%] samples with the TPS versus 24 [19%] samples with the BMFS (McNemar's mid p value = 0.004). Sabin 3 poliovirus was detected in 59 [47%] versus 49 (39%) samples (p = 0.043), and NPEV was detected in 67 [54%] versus 40 [32%] samples (p < 0.001). The BMFS method without secondary concentration did not perform as well as the TPS method for detecting Sabin poliovirus and NPEV. Further studies are needed to guide the selection of cost-effective environmental surveillance methods for the polio endgame. |
Detection of vaccine-derived polioviruses in Mexico using environmental surveillance.
Esteves-Jaramillo A , Estivariz CF , Penaranda S , Richardson VL , Reyna J , Coronel DL , Carrion V , Landaverde JM , Wassilak SG , Perez-Sanchez EE , Lopez-Martinez I , Burns CC , Pallansch MA . J Infect Dis 2014 210 Suppl 1 S315-23 BACKGROUND: Early detection and control of vaccine-derived poliovirus (VDPV) emergences are essential to secure the gains of polio eradication. METHODS: Serial sewage samples were collected in 4 towns of Mexico before, throughout, and after the May 2010 oral poliovirus vaccine (OPV) mass immunization campaign. Isolation and molecular analysis of polioviruses from sewage specimens monitored the duration of vaccine-related strains in the environment and emergence of vaccine-derived polioviruses in a population partially immunized with inactivated poliovirus vaccine (IPV). RESULTS: Sabin strains were identified up to 5-8 weeks after the campaign in all towns; in Aguascalientes, 1 Sabin 3 was isolated 16 weeks after the campaign, following 7 weeks with no Sabin strains detected. In Tuxtla Gutierrez, type 2 VDPV was isolated from 4 samples collected before and during the campaign, and type 1 VDPV from 1 sample collected 19 weeks afterward. During 2009-2010, coverage in 4 OPV campaigns conducted averaged only 57% and surveillance for acute flaccid paralysis (AFP) was suboptimal (AFP rate <1 per 100 000 population <15 years of age) in Tuxtla Gutierrez. CONCLUSIONS: VDPVs may emerge and spread in settings with inadequate coverage with IPV/OPV vaccination. Environmental surveillance can facilitate early detection in these settings. |
Diversity of picornaviruses in rural Bolivia
Nix WA , Khetsuriani N , Penaranda S , Maher K , Venczel L , Cselko Z , Freire MC , Cisterna D , Lema C , Rosales P , Rodriguez J , Rodriguez W , Halkyer P , Ronveaux O , Pallansch MA , Oberste M . J Gen Virol 2013 94 2017-2028 The family Picornaviridae is a large and diverse group of viruses that infect humans and animals. Picornaviruses are among the most common infections of humans and cause a wide spectrum of acute human disease. This study began as an investigation of acute flaccid paralysis (AFP) in a small area of eastern Bolivia, where surveillance had identified a persistently high AFP rate in children. Stools were collected and diagnostic studies ruled out poliovirus. We tested stool specimens from 51 AFP cases and 34 healthy household or community contacts collected during 2002-2003 using real-time and semi-nested RT-PCR assays for enterovirus, parechovirus, cardiovirus, kobuvirus, salivirus, and cosavirus. Anecdotal reports suggested a temporal association with neurologic disease in domestic pigs, so six porcine stools were also collected and tested with the same set of assays, with the addition of an assay for porcine teschovirus. A total of 126 picornaviruses were detected in 73 of 85 human individuals, consisting of 53 different picornavirus types encompassing five genera (all except Kobuvirus). All six porcine stools contained porcine and/or human picornaviruses. No single virus, or combination of viruses, specifically correlated with AFP; however, the study revealed a surprising complexity of enteric picornaviruses in a single community. |
Characteristics of young infants in whom human parechovirus, enterovirus or neither were detected in cerebrospinal fluid during sepsis evaluations
Sharp J , Harrison CJ , Puckett K , Selvaraju SB , Penaranda S , Nix WA , Oberste MS , Selvarangan R . Pediatr Infect Dis J 2013 32 (3) 213-6 BACKGROUND: Human parechovirus (HPeV) causes central nervous system (CNS) infection in infants. To further understand HPeV CNS infection, we describe its clinical, laboratory and epidemiologic characteristics from a Midwestern US tertiary care center. Because HPeV CNS infections have appeared clinically and seasonally similar to enterovirus (EV) infections, we retrospectively compared characteristics of young infants undergoing sepsis evaluations in whom HPeV, EV or neither were detected in cerebrospinal fluid (CSF). METHODS: HPeV real-time reverse-transcription polymerase chain reaction (RT-PCR) assay was performed on frozen nucleic acid extracts of CSF specimens submitted for EV RT-PCR assay from children seen at our hospital in 2009. HPeV genotyping was performed by sequencing of the viral protein 1 region. Clinical data were abstracted from medical records retrospectively for EV-positive, HPeV-positive and age-matched controls in whom neither virus was detected from CSF testing. RESULTS: HPeV was detected in 66 of the 388 (17%) CSF specimens whereas EV was detected in 54 of the 388 (14%) from June through October 2009. Genotyping identified HPeV3 in 51 of the 66 (77%) positive CSF specimens. Males predominated (61%) with the most common presenting symptoms (91%) being fever and irritability. All HPeV-positive patients were <5 months of age. Eight required admission to the pediatric intensive care unit. In multivariate analysis, lower peripheral white blood cell counts with lower absolute lymphocyte count values, higher maximum temperatures, longer fever duration, absence of pleocytosis and longer hospitalization were independently associated with HPeV patients compared with patients with EV or patients negative for both HPeV and EV. CONCLUSIONS: Our data indicate that HPeV3, an emerging CNS pathogen of infants in the United States, should be considered in sepsis-like presentation even without CSF pleocytosis. Addition of HPeV RT-PCR to EV RT-PCR assay for CSF specimens of patients <6 months of age could reduce hospital stay and costs while improving clinical management. |
Acute febrile illness surveillance in a tertiary hospital emergency department: comparison of influenza and dengue virus infections
Lorenzi OD , Gregory CJ , Santiago LM , Acosta H , Galarza IE , Hunsperger E , Munoz J , Bui DM , Oberste MS , Penaranda S , Garcia-Gubern C , Tomashek KM . Am J Trop Med Hyg 2013 88 (3) 472-80 In 2009, an increased proportion of suspected dengue cases reported to the surveillance system in Puerto Rico were laboratory negative. As a result, enhanced acute febrile illness (AFI) surveillance was initiated in a tertiary care hospital. Patients with fever of unknown origin for 2-7 days duration were tested for Leptospira, enteroviruses, influenza, and dengue virus. Among the 284 enrolled patients, 31 dengue, 136 influenza, and 3 enterovirus cases were confirmed. Nearly half (48%) of the confirmed dengue cases met clinical criteria for influenza. Dengue patients were more likely than influenza patients to have hemorrhage (81% versus 26%), rash (39% versus 9%), and a positive tourniquet test (52% versus 18%). Mean platelet and white blood cell count were lower among dengue patients. Clinical diagnosis can be particularly difficult when outbreaks of other AFI occur during dengue season. A complete blood count and tourniquet test may be useful to differentiate dengue from other AFIs. |
Detection of human parechovirus (HPeV)-3 in spinal fluid specimens from pediatric patients in the Chicago area
Walters B , Penaranda S , Nix WA , Oberste MS , Todd KM , Katz BZ , Zheng X . J Clin Virol 2011 52 (3) 187-91 BACKGROUND: The human parechoviruses (HPeV) have recently been recognized as important viral pathogens causing various illnesses including sepsis and meningitis in children. However, data from the United States is limited. OBJECTIVES: To better understand the epidemiology of HPeV in the United States and its role in pediatric disease through detection and typing of the virus in cerebrospinal fluid specimens. STUDY DESIGN: Four hundred and twenty-one spinal fluid samples collected from 373 patients ranging in age from 1 day to 18 years were tested using a real-time reverse transcription-PCR assay. The specimens were originally collected for routine viral and bacterial testing to assist in the diagnosis of meningitis or sepsis. Amplification products of the VP1 region in the virus genome were sequenced to identify the parechovirus type. RESULTS: Ten positive specimens were identified from 10 different patients. All ten samples were typed as HPeV3 and were negative for bacteria by culture, and for enterovirus and herpes simplex virus by PCR. All of the HPeV3-infected patients were young infants ranging in age from 6 to 59 days. Infants in whom HPeV3 was detected had significantly decreased peripheral white blood cell counts. Positive specimens were all from the summer and early fall. CONCLUSIONS: HPeV3 infection of the central nervous system is found in very young infants in certain years during the summer and early fall, and is associated with leukopenia. Real-time RT-PCR is an effective tool for rapid detection of these infections, and could help prevent unnecessary hospitalization and antibiotic use in HPeV infected infants. More widespread use of this tool in diagnosing HPeV infection would aid in further clarifying the prevalence of this disease in the United States. |
An automated genotyping tool for enteroviruses and noroviruses.
Kroneman A , Vennema H , Deforche K , Avoort HV , Penaranda S , Oberste MS , Vinje J , Koopmans M . J Clin Virol 2011 51 (2) 121-5 BACKGROUND: Molecular techniques are established as routine in virological laboratories and virus typing through (partial) sequence analysis is increasingly common. Quality assurance for the use of typing data requires harmonization of genotype nomenclature, and agreement on target genes, depending on the level of resolution required, and robustness of methods. OBJECTIVE: To develop and validate web-based open-access typing-tools for enteroviruses and noroviruses. STUDY DESIGN: An automated web-based typing algorithm was developed, starting with BLAST analysis of the query sequence against a reference set of sequences from viruses in the family Picornaviridae or Caliciviridae. The second step is phylogenetic analysis of the query sequence and a sub-set of the reference sequences, to assign the enterovirus type or norovirus genotype and/or variant, with profile alignment, construction of phylogenetic trees and bootstrap validation. Typing is performed on VP1 sequences of Human enterovirus A to D, and ORF1 and ORF2 sequences of genogroup I and II noroviruses. For validation, we used the tools to automatically type sequences in the RIVM and CDC enterovirus databases and the FBVE norovirus database. RESULTS: Using the typing-tools, 785(99%) of 795 Enterovirus VP1 sequences, and 8154(98.5%) of 8342 norovirus sequences were typed in accordance with previously used methods. Subtyping into variants was achieved for 4439(78.4%) of 5838 NoV GII.4 sequences. DISCUSSION AND CONCLUSIONS: The online typing-tools reliably assign genotypes for enteroviruses and noroviruses. The use of phylogenetic methods makes these tools robust to ongoing evolution. This should facilitate standardized genotyping and nomenclature in clinical and public health laboratories, thus supporting inter-laboratory comparisons. |
High degree of genetic diversity of non-polio enteroviruses identified in Georgia by environmental and clinical surveillance, 2002-2005
Khetsuriani N , Kutateladze T , Zangaladze E , Shutkova T , Penaranda S , Nix WA , Pallansch M , Oberste MS . J Med Microbiol 2010 59 1340-1347 Enterovirus (EV) surveillance data are useful for establishing temporal and geographic patterns of circulation and for virus characterization to determine phylogenetic relationships between strains. Almost no information is available on circulating enteroviruses (EV) in Georgia and the surrounding region. To describe EV circulation in Georgia, determine relationships with previously characterized strains, and assess the role of environmental and clinical EV surveillance, we analyzed a total of 112 non-polio EV isolates identified during 2002-2005 from sewage and human stool samples. Viruses were isolated in cell culture using standard methods and typed by partial sequencing of VP1 gene. A total of 20 different non-polio EV serotypes were identified over the four-year period. Most commonly detected EV included echovirus (E) 6 (21 isolates), E20, E3, and E7 (11 isolates each), E11, coxsackievirus (CV) B4, and CVB5 (7 isolates each), and E13, E19, and E30 (6 isolates each). Phylogenetic analysis showed that many serotypes were represented by more than one genetic lineage. The present study showed a very high degree of EV diversity in Georgia and demonstrated the added value of environmental EV surveillance, particularly in settings with limited clinical surveillance. Several serotypes would not have been detected without having both clinical and environmental surveillance in place. Several serotypes detected in Georgia were among those rarely reported in the United States and Europe (e.g. E3, E20, and E19). Since the emergence of new genetic lineages of EV in a particular area is often associated with large scale outbreaks, continued monitoring of EV strains by both environmental and clinical surveillance and genetic characterization should be encouraged. |
Comparative evaluation of Taqman real-time PCR and semi-nested VP1 PCR for detection of enteroviruses in clinical specimens
Oberste MS , Penaranda S , Rogers SL , Henderson E , Nix WA . J Clin Virol 2010 49 (1) 73-4 BACKGROUND: Molecular diagnostic tests to detect enterovirus in clinical specimens usually target highly conserved sites in the 5'-non-translated region, allowing detection of all members of the genus. The sequences in the 5'-NTR do not correlate with serotype, but PCR and sequencing of the VP1 region can be used for typing; this system has largely replaced traditional antigenic typing. OBJECTIVE: To investigate the relative performance of two common enterovirus assays. STUDY DESIGN: We compared the relative sensitivities of Taqman((R)) real-time RT-PCR (rRT-PCR) and a VP1 semi-nested PCR (RT-snPCR) assay in which sequencing the VP1 amplicon also provides typing information. RESULTS: There was 89% concordance between the two methods among the 371 clinical specimens tested (74 positive in both assays and 257 negative in both assays). Twenty-seven rRT-PCR-negative/VP1-positive specimens were confirmed positive by sequencing; 13 specimens were rRT-PCR-positive/VP1-negative. CONCLUSIONS: The results suggest that either assay can produce satisfactory results, but that using both assays in parallel should provide the highest sensitivity for clinical diagnostic testing. |
Increased activity of coxsackievirus B1 strains associated with severe disease among young infants in the United States, 2007-2008
Wikswo ME , Khetsuriani N , Fowlkes AL , Zheng X , Penaranda S , Verma N , Shulman ST , Sircar K , Robinson CC , Schmidt T , Schnurr D , Oberste MS . Clin Infect Dis 2009 49 (5) e44-51 BACKGROUND: Enterovirus infections are very common and typically cause mild illness, although neonates are at higher risk for severe illness. In 2007, the Centers for Disease Control and Prevention (CDC) received multiple reports of severe neonatal illness and death associated with coxsackievirus B1 (CVB1), a less common enterovirus serotype not previously associated with death in surveillance reports to the CDC. METHODS: This report includes clinical, epidemiologic, and virologic data from cases of severe neonatal illness associated with CVB1 reported during the period from 2007 through 2008 to the National Enterovirus Surveillance System (NESS), a voluntary, passive surveillance system. Also included are data on additional cases reported to the CDC outside of the NESS. Virus isolates or original specimens obtained from patients from 25 states were referred to the CDC picornavirus laboratory for molecular typing or characterization. RESULTS: During 2007-2008, the NESS received 1079 reports of enterovirus infection. CVB1 accounted for 176 (23%) of 775 reported cases with known serotype, making it the most commonly reported serotype for the first time ever in the NESS. Six neonatal deaths due to CVB1 infection were also reported to the CDC during that time. Phylogenetic analysis of the 2007 and 2008 CVB1 strains indicated that the increase in cases resulted from widespread circulation of a single genetic lineage that had been present in the United States since at least 2001. CONCLUSIONS: Healthcare providers and public health departments should be vigilant to the possibility of continuing CVB1-associated neonatal illness, and testing and continued reporting of enterovirus infections should be encouraged. |
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