17 results on '"Rashi Gautam"'
Search Results
2. Whole gene analysis of a genotype G29P[6] human rotavirus strain identified in Central African Republic
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Virginie Banga-Mingo, Mathew D. Esona, Naga S. Betrapally, Rashi Gautam, Jose Jaimes, Eric Katz, Diane Waku-Kouomou, Michael D. Bowen, and Ionela Gouandjika-Vasilache
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RVA ,Whole genome analysis ,Central African Republic ,Medicine ,Biology (General) ,QH301-705.5 ,Science (General) ,Q1-390 - Abstract
Abstract Objective Rotavirus A (RVA) remains the main causative agent of gastroenteritis in young children and the young of many mammalian and avian species. In this study we describe a RVA strain detected from a 6-month-old child from Central African Republic (CAR). Results We report the 11 open reading frame sequences of a G29-P[6]-I2-R2-C2-M2-A2-N2-T2-E2-H2 rotavirus strain, RVA/Human-wt/CAR/CAR91/2014/G29P[6]. Nine genes (VP1–VP3, VP6, NSP1–NSP5) shared 90–100% sequence similarities with genogroup 2 rotaviruses. Phylogenetically, backbone genes, except for VP3 and NSP4 genes, were linked with cognate gene sequences of human DS-1-like genogroup 2, hence their genetic origin. The VP3 and NSP4 genes, clustered genetically with both human and animal strains, an indication genetic reassortment human and animal RVA strains has taken place. The VP7 gene shared nucleotide (93–94%) and amino acid (95.5–96.7%) identities with Kenyan and Belgian human G29 strains, as well as to buffalo G29 strain from South Africa, while the VP4 gene most closely resembled P[6]-lineage I strains from Africa and Bangladesh (97%).
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- 2021
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3. Whole genome analysis of rotavirus strains circulating in Benin before vaccine introduction, 2016–2018
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Jijoho Michel Agbla, Mathew D. Esona, Jose Jaimes, Rashi Gautam, Alidéhou Jerrold Agbankpé, Eric Katz, Tamegnon Victorien Dougnon, Annick Capo-Chichi, Nafissatou Ouedraogo, Osseni Razack, Honoré Sourou Bankolé, and Michael D. Bowen
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Rotavirus ,Whole genome ,Alleles ,Benin ,Pre-vaccine era strains ,Microbiology ,QR1-502 ,Infectious and parasitic diseases ,RC109-216 - Abstract
Species A rotaviruses (RVA) still play a major role in causing acute diarrhea in children under five years old worldwide. Currently, an 11-gene classification system is used to designate the full genotypic constellations of circulating strains. Viral proteins and non-structural proteins in the order VP7-VP4-VP6-VP1-VP2-VP3-NSP1-NSP2-NSP3-NSP4-NSP5/6 are represented by the genotypes Gx-P[x]-Ix-Rx-Cx-Mx-Ax-Nx-Tx-Ex-Hx, respectively. In Benin, ROTAVAC® vaccine was introduced into the Expanded Programme on Immunization in December 2019. To monitor circulating RVA strains for changes that may affect vaccine performance, in-depth analysis of strains prior to vaccine introduction are needed. Here we report, the whole-gene characterization (11 ORFs) for 72 randomly selected RVA strains of common and unusual genotypes collected in Benin from the 2016 to 2018 seasons. The sequenced strains were 15 G1P[8], 20 G2P[4], 5 G9P[8], 14 G12P[8], 9 G3P[6], 2 G1P[6], 3 G2P[6], 2 G9P[4], 1 G12P[6], and 1 G1G9P[8]/P[4]. The study strains exhibited two genetic constellations designed as Wa-like G1/G9/G12-P[6]/P[8]-I1-R1-C1-M1-A1-N1-T1-E1-H1 and DS-1-like G2/G3/G12-P[4]/P[6]-I2-R2-C2-M2-A2-N2-T2-E2-H2. Genotype G9P[4] strains possessed a DS-1-like genetic constellation with an E6 NSP4 gene, G9-P[4]-I2-R2-C2-M2-A2-N2-T2-E6-H2. The mixed genotype showed both Wa-like and DS-1-like profiles with a T6 NSP3 gene G1/G9P[8]/[4]-I1/I2-R1/R2-C1/C2-M1/M2-A1/A2-N1/N2-T1/T6-E1/E6-H1/H2. At the allelic level, the analysis of the Benin strains, reference strains (with known alleles), vaccine strains (with known alleles) identified 2–13 and 1–17 alleles for DS-1-like and Wa-like strains, respectively. Most of the study strains clustered into previously defined alleles, but we defined 3 new alleles for the VP7 (G3 = 1 new allele and G12 = 2 new alleles) and VP4 (P[4] = 1 new allele and P[6] = 2 new alleles) genes which formed the basis of the VP7 and VP4 gene clusters, respectively. For the remaining 9 genes, 0-6 new alleles were identified for both Wa-like and DS-1-like strains. This analysis of whole genome sequences of RVA strains circulating in Benin described genetic point mutations and reassortment events as well as novel alleles. Further detailed studies on these new alleles are needed and these data can also provide a baseline for studies on RVA in the post-vaccination period.
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- 2022
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4. Molecular characteristics of rotavirus genotypes circulating in the south of Benin, 2016–2018
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Jijoho Michel Agbla, Mathew D. Esona, Alidehou Jerrold Agbankpe, Annick Capo-Chichi, Rashi Gautam, Tamegnon Victorien Dougnon, Osseni Razack, Michael D. Bowen, and Honore Sourou Bankole
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Pediatric ,Rotavirus ,Surveillance ,Genotypes ,Benin ,Medicine ,Biology (General) ,QH301-705.5 ,Science (General) ,Q1-390 - Abstract
Abstract Objective Rotavirus remains the main causative agent of gastroenteritis in young children in countries that have not yet introduced the vaccine. In Benin, rotavirus vaccine was introduced late December 2019 into the EPI. This study aims to provide pre-vaccination era rotavirus genotyping data in Benin. These data can supplement data from the surveillance system of Ministry of Health of Benin which is supported by the World Health Organization (WHO). Results Of the 420 diarrheal stool samples, actively collected in southern Benin from July 2016 through November 2018 from children under 5 years old and suffering from gastroenteritis, 167 (39.8%) samples were rotavirus EIA positive. 186 (44.3%) samples contained amplifiable rotavirus RNA detected by qRT-PCR method and were genotyped using one-step RT-PCR multiplex genotyping method. G1P[8] represents the predominant genotype (32%) followed by the G2P[4] (26%), G3P[6] (16%), G12P[8] (13%) and mixed G and P types (1%). Four samples (2%) could not be assigned both G and P type specificity.
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- 2020
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5. Severe Acute Respiratory Syndrome Coronavirus 2 from Patient with Coronavirus Disease, United States
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Jennifer Harcourt, Azaibi Tamin, Xiaoyan Lu, Shifaq Kamili, Senthil K. Sakthivel, Janna Murray, Krista Queen, Ying Tao, Clinton R. Paden, Jing Zhang, Yan Li, Anna Uehara, Haibin Wang, Cynthia Goldsmith, Hannah A. Bullock, Lijuan Wang, Brett Whitaker, Brian Lynch, Rashi Gautam, Craig Schindewolf, Kumari G. Lokugamage, Dionna Scharton, Jessica A. Plante, Divya Mirchandani, Steven G. Widen, Krishna Narayanan, Shinji Makino, Thomas G. Ksiazek, Kenneth S. Plante, Scott C. Weaver, Stephen Lindstrom, Suxiang Tong, Vineet D. Menachery, and Natalie J. Thornburg
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coronavirus ,viruses ,severe acute respiratory syndrome coronavirus 2 ,SARS-CoV-2 ,novel coronavirus disease 2019 ,COVID-19 ,Medicine ,Infectious and parasitic diseases ,RC109-216 - Abstract
The etiologic agent of an outbreak of pneumonia in Wuhan, China, was identified as severe acute respiratory syndrome coronavirus 2 in January 2020. A patient in the United States was given a diagnosis of infection with this virus by the state of Washington and the US Centers for Disease Control and Prevention on January 20, 2020. We isolated virus from nasopharyngeal and oropharyngeal specimens from this patient and characterized the viral sequence, replication properties, and cell culture tropism. We found that the virus replicates to high titer in Vero-CCL81 cells and Vero E6 cells in the absence of trypsin. We also deposited the virus into 2 virus repositories, making it broadly available to the public health and research communities. We hope that open access to this reagent will expedite development of medical countermeasures.
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- 2020
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6. Rotavirus Strain Trends in United States, 2009–2016: Results from the National Rotavirus Strain Surveillance System (NRSSS)
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Slavica Mijatovic-Rustempasic, Jose Jaimes, Charity Perkins, M. Leanne Ward, Mathew D. Esona, Rashi Gautam, Jamie Lewis, Michele Sturgeon, Junaid Panjwani, Gail A. Bloom, Steve Miller, Erik Reisdorf, Ann Marie Riley, Morgan A. Pence, James Dunn, Rangaraj Selvarangan, Robert C. Jerris, Dona DeGroat, Umesh D. Parashar, Margaret M. Cortese, and Michael D. Bowen
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rotavirus ,RVA ,genotype ,prevalence ,surveillance ,vaccine ,Microbiology ,QR1-502 - Abstract
Before the introduction of vaccines, group A rotaviruses (RVA) were the leading cause of acute gastroenteritis in children worldwide. The National Rotavirus Strain Surveillance System (NRSSS) was established in 1996 by the Centers for Disease Control and Prevention (CDC) to perform passive RVA surveillance in the USA. We report the distribution of RVA genotypes collected through NRSSS during the 2009–2016 RVA seasons and retrospectively examine the genotypes detected through the NRSSS since 1996. During the 2009–2016 RVA seasons, 2134 RVA-positive fecal specimens were sent to the CDC for analysis of the VP7 and VP4 genes by RT-PCR genotyping assays and sequencing. During 2009–2011, RVA genotype G3P[8] dominated, while G12P[8] was the dominant genotype during 2012–2016. Vaccine strains were detected in 1.7% of specimens and uncommon/unusual strains, including equine-like G3P[8] strains, were found in 1.9%. Phylogenetic analyses showed limited VP7 and VP4 sequence variation within the common genotypes with 1–3 alleles/lineages identified per genotype. A review of 20 years of NRSSS surveillance showed two changes in genotype dominance, from G1P[8] to G3P[8] and then G3P[8] to G12P[8]. A better understanding of the long-term effects of vaccine use on epidemiological and evolutionary dynamics of circulating RVA strains requires continued surveillance.
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- 2022
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7. One-step multiplex real-time RT-PCR assay for detecting and genotyping wild-type group A rotavirus strains and vaccine strains (Rotarix® and RotaTeq®) in stool samples
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Rashi Gautam, Slavica Mijatovic-Rustempasic, Mathew D. Esona, Ka Ian Tam, Osbourne Quaye, and Michael D. Bowen
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Gastroenteritis ,Rotavirus genotyping ,Multiplex qRT-PCR ,Rotarix® ,RotaTeq® ,Medicine ,Biology (General) ,QH301-705.5 - Abstract
Background. Group A rotavirus (RVA) infection is the major cause of acute gastroenteritis (AGE) in young children worldwide. Introduction of two live-attenuated rotavirus vaccines, RotaTeq® and Rotarix®, has dramatically reduced RVA associated AGE and mortality in developed as well as in many developing countries. High-throughput methods are needed to genotype rotavirus wild-type strains and to identify vaccine strains in stool samples. Quantitative RT-PCR assays (qRT-PCR) offer several advantages including increased sensitivity, higher throughput, and faster turnaround time. Methods. In this study, a one-step multiplex qRT-PCR assay was developed to detect and genotype wild-type strains and vaccine (Rotarix® and RotaTeq®) rotavirus strains along with an internal processing control (Xeno or MS2 RNA). Real-time RT-PCR assays were designed for VP7 (G1, G2, G3, G4, G9, G12) and VP4 (P[4], P[6] and P[8]) genotypes. The multiplex qRT-PCR assay also included previously published NSP3 qRT-PCR for rotavirus detection and Rotarix® NSP2 and RotaTeq® VP6 qRT-PCRs for detection of Rotarix® and RotaTeq® vaccine strains respectively. The multiplex qRT-PCR assay was validated using 853 sequence confirmed stool samples and 24 lab cultured strains of different rotavirus genotypes. By using thermostable rTth polymerase enzyme, dsRNA denaturation, reverse transcription (RT) and amplification (PCR) steps were performed in single tube by uninterrupted thermocycling profile to reduce chances of sample cross contamination and for rapid generation of results. For quantification, standard curves were generated using dsRNA transcripts derived from RVA gene segments. Results. The VP7 qRT-PCRs exhibited 98.8–100% sensitivity, 99.7–100% specificity, 85–95% efficiency and a limit of detection of 4–60 copies per singleplex reaction. The VP7 qRT-PCRs exhibited 81–92% efficiency and limit of detection of 150–600 copies in multiplex reactions. The VP4 qRT-PCRs exhibited 98.8–100% sensitivity, 100% specificity, 86–89% efficiency and a limit of detection of 12–400 copies per singleplex reactions. The VP4 qRT-PCRs exhibited 82–90% efficiency and limit of detection of 120–4000 copies in multiplex reaction. Discussion. The one-step multiplex qRT-PCR assay will facilitate high-throughput rotavirus genotype characterization for monitoring circulating rotavirus wild-type strains causing rotavirus infections, determining the frequency of Rotarix® and RotaTeq® vaccine strains and vaccine-derived reassortants associated with AGE, and help to identify novel rotavirus strains derived by reassortment between vaccine and wild-type strains.
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- 2016
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8. Whole gene analysis of a genotype G29P[6] human rotavirus strain identified in Central African Republic
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Diane Waku-Kouomou, Eric M Katz, Rashi Gautam, Virginie Banga-Mingo, Jose Jaimes, Michael D. Bowen, Mathew D. Esona, Naga S. Betrapally, and Ionela Gouandjika-Vasilache
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0106 biological sciences ,0301 basic medicine ,Rotavirus ,Science (General) ,Genotype ,QH301-705.5 ,viruses ,Reassortment ,Genome, Viral ,Biology ,medicine.disease_cause ,010603 evolutionary biology ,01 natural sciences ,General Biochemistry, Genetics and Molecular Biology ,Rotavirus Infections ,03 medical and health sciences ,South Africa ,Q1-390 ,Human rotavirus ,medicine ,Animals ,Humans ,Biology (General) ,Gene ,Phylogeny ,Genetics ,Bangladesh ,Strain (biology) ,virus diseases ,General Medicine ,Kenya ,RVA ,Central African Republic ,Open reading frame ,Research Note ,030104 developmental biology ,Whole genome analysis ,Child, Preschool ,Medicine ,Vp7 gene - Abstract
Objective Rotavirus A (RVA) remains the main causative agent of gastroenteritis in young children and the young of many mammalian and avian species. In this study we describe a RVA strain detected from a 6-month-old child from Central African Republic (CAR). Results We report the 11 open reading frame sequences of a G29-P[6]-I2-R2-C2-M2-A2-N2-T2-E2-H2 rotavirus strain, RVA/Human-wt/CAR/CAR91/2014/G29P[6]. Nine genes (VP1–VP3, VP6, NSP1–NSP5) shared 90–100% sequence similarities with genogroup 2 rotaviruses. Phylogenetically, backbone genes, except for VP3 and NSP4 genes, were linked with cognate gene sequences of human DS-1-like genogroup 2, hence their genetic origin. The VP3 and NSP4 genes, clustered genetically with both human and animal strains, an indication genetic reassortment human and animal RVA strains has taken place. The VP7 gene shared nucleotide (93–94%) and amino acid (95.5–96.7%) identities with Kenyan and Belgian human G29 strains, as well as to buffalo G29 strain from South Africa, while the VP4 gene most closely resembled P[6]-lineage I strains from Africa and Bangladesh (97%).
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- 2021
9. Severe Acute Respiratory Syndrome Coronavirus 2 from Patient with Coronavirus Disease, United States
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Shifaq Kamili, Kenneth S. Plante, Yan Li, Rashi Gautam, Craig Schindewolf, Lijuan Wang, Krishna Narayanan, Hannah A. Bullock, Janna Murray, Brett Whitaker, Brian Lynch, Natalie J. Thornburg, Azaibi Tamin, Cynthia S. Goldsmith, Scott C. Weaver, Shinji Makino, Clinton R. Paden, Stephen Lindstrom, Dionna Scharton, Ying Tao, Kumari G. Lokugamage, Anna Uehara, Jing Zhang, Krista Queen, Senthil Kumar K. Sakthivel, Steven G. Widen, Vineet D. Menachery, Haibin Wang, Xiaoyan Lu, Suxiang Tong, Thomas G. Ksiazek, Divya Mirchandani, Jennifer L Harcourt, and Jessica A. Plante
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Epidemiology ,Expedited ,viruses ,coronavirus ,Severe Acute Respiratory Syndrome Coronavirus 2 from Patient with 2019 Novel Coronavirus Disease, United States ,Oropharynx ,lcsh:Medicine ,medicine.disease_cause ,Virus Replication ,0302 clinical medicine ,Nasopharynx ,Pandemic ,Chlorocebus aethiops ,Medicine ,characterization ,030212 general & internal medicine ,Coronavirus ,biology ,Infectious Diseases ,PCR ,Coronavirus Infections ,isolation ,severe acute respiratory syndrome coronavirus 2 ,Microbiology (medical) ,Washington ,030231 tropical medicine ,Pneumonia, Viral ,Genome, Viral ,Virus ,2019 novel coronavirus disease ,Cell Line ,lcsh:Infectious and parasitic diseases ,03 medical and health sciences ,respiratory infections ,Betacoronavirus ,Animals ,Humans ,lcsh:RC109-216 ,Pandemics ,Vero Cells ,business.industry ,SARS-CoV-2 ,Research ,lcsh:R ,Outbreak ,COVID-19 ,biology.organism_classification ,medicine.disease ,Virology ,United States ,zoonoses ,Pneumonia ,Viral Tropism ,novel coronavirus disease 2019 ,Tissue tropism ,Vero cell ,business - Abstract
The etiologic agent of an outbreak of pneumonia in Wuhan, China, was identified as severe acute respiratory syndrome coronavirus 2 in January 2020. A patient in the United States was given a diagnosis of infection with this virus by the state of Washington and the US Centers for Disease Control and Prevention on January 20, 2020. We isolated virus from nasopharyngeal and oropharyngeal specimens from this patient and characterized the viral sequence, replication properties, and cell culture tropism. We found that the virus replicates to high titer in Vero-CCL81 cells and Vero E6 cells in the absence of trypsin. We also deposited the virus into 2 virus repositories, making it broadly available to the public health and research communities. We hope that open access to this reagent will expedite development of medical countermeasures.
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- 2020
10. Incidence, Etiology, and Severity of Acute Gastroenteritis Among Prospectively Enrolled Patients in 4 Veterans Affairs Hospitals and Outpatient Centers, 2016–2018
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Aron J. Hall, Neha Balachandran, Rashi Gautam, Rebecca M. Dahl, Jan Vinjé, Mark Holodniy, David O. Beenhouwer, Sheldon T. Brown, Cynthia Lucero-Obusan, Umesh D. Parashar, Adrienne Perea, Blanca Vargas, Karen V. Evangelista, Michael D. Bowen, Anita Kambhampati, Cristina V. Cardemil, Scott Grytdal, Kathryn L Meagley, Maria C. Rodriguez-Barradas, Hannah Browne, and Vincent C. Marconi
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0301 basic medicine ,Microbiology (medical) ,Adult ,Rotavirus ,medicine.medical_specialty ,Hospitals, Veterans ,030106 microbiology ,Population ,medicine.disease_cause ,Article ,law.invention ,03 medical and health sciences ,Feces ,0302 clinical medicine ,fluids and secretions ,law ,Internal medicine ,Outpatients ,medicine ,Humans ,030212 general & internal medicine ,Prospective Studies ,education ,Veterans Affairs ,Aged ,Caliciviridae Infections ,Veterans ,education.field_of_study ,business.industry ,Clostridioides difficile ,Incidence (epidemiology) ,Incidence ,virus diseases ,Infant ,Clostridium difficile ,Intensive care unit ,United States ,Gastroenteritis ,Infectious Diseases ,Norovirus ,Etiology ,business - Abstract
Background Acute gastroenteritis (AGE) burden, etiology, and severity in adults is not well characterized. We implemented a multisite AGE surveillance platform in 4 Veterans Affairs Medical Centers (Atlanta, Georgia; Bronx, New York; Houston, Texas; and Los Angeles, California), collectively serving >320 000 patients annually. Methods From 1 July 2016 to 30 June 2018, we actively identified inpatient AGE case patients and non-AGE inpatient controls through prospective screening of admitted patients and passively identified outpatients with AGE through stool samples submitted for clinical diagnostics. We abstracted medical charts and tested stool samples for 22 pathogens by means of multiplex gastrointestinal polymerase chain reaction panel followed by genotyping of norovirus- and rotavirus-positive samples. We determined pathogen-specific prevalence, incidence, and modified Vesikari severity scores. Results We enrolled 724 inpatients with AGE, 394 non-AGE inpatient controls, and 506 outpatients with AGE. Clostridioides difficile and norovirus were most frequently detected among inpatients (for AGE case patients vs controls: C. difficile, 18.8% vs 8.4%; norovirus, 5.1% vs 1.5%; P < .01 for both) and outpatients (norovirus, 10.7%; C. difficile, 10.5%). The incidence per 100 000 population was highest among outpatients (AGE, 2715; C. difficile, 285; norovirus, 291) and inpatients ≥65 years old (AGE, 459; C. difficile, 91; norovirus, 26). Clinical severity scores were highest for inpatient norovirus, rotavirus, and Shigella/enteroinvasive Escherichia coli cases. Overall, 12% of inpatients with AGE had intensive care unit stays, and 2% died; 3 deaths were associated with C. difficile and 1 with norovirus. C. difficile and norovirus were detected year-round with a fall/winter predominance. Conclusions C. difficile and norovirus were leading AGE pathogens in outpatient and hospitalized US veterans, resulting in severe disease. Clinicians should remain vigilant for bacterial and viral causes of AGE year-round.
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- 2021
11. Comparative genomic analysis of genogroup 1 and genogroup 2 rotaviruses circulating in seven US cities, 2014–2016
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Daniel C. Payne, Christopher J. Harrison, Jose Jaime, Jan Englund, Rashi Gautam, Natasha B. Halasa, Naga S. Betrapally, Geoffrey A. Weinberg, James D. Chappell, Mary E Wikswo, Umesh D. Parashar, Michael D. Bowen, Julie A. Boom, Mary Allen Staat, Eileen J. Klein, Eric M Katz, Rangaraj Selvarangan, Slavica M Rustempasic, M Leanne Ward, Mathew D. Esona, and Monica M. McNeal
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Whole genome sequencing ,Genetics ,Phylogenetic tree ,Reassortment ,Biology ,medicine.disease_cause ,Microbiology ,Virology ,Rotavirus ,Genotype ,medicine ,ORFS ,Allele ,Gene ,Research Article - Abstract
For over a decade, the New Vaccine Surveillance Network (NVSN) has conducted active rotavirus (RVA) strain surveillance in the USA. The evolution of RVA in the post-vaccine introduction era and the possible effects of vaccine pressure on contemporary circulating strains in the USA are still under investigation. Here, we report the whole-gene characterization (eleven ORFs) for 157 RVA strains collected at seven NVSN sites during the 2014 through 2016 seasons. The sequenced strains included 52 G1P[8], 47 G12P[8], 18 G9P[8], 24 G2P[4], 5 G3P[6], as well as 7 vaccine strains, a single mixed strain (G9G12P[8]), and 3 less common strains. The majority of the single and mixed strains possessed a Wa-like backbone with consensus genotype constellation of G1/G3/G9/G12-P[8]-I1-R1-C1-M1-A1-N1-T1-E1-H1, while the G2P[4], G3P[6], and G2P[8] strains displayed a DS-1-like genetic backbone with consensus constellation of G2/G3-P[4]/P[6]/P[8]-I2-R2-C2-M2-A2-N2-T2-E2-H2. Two intergenogroup reassortant G1P[8] strains were detected that appear to be progenies of reassortment events between Wa-like G1P[8] and DS-1-like G2P[4] strains. Two Rotarix® vaccine (RV1) and two RV5 derived (vd) reassortant strains were detected. Phylogenetic and similarity matrices analysis revealed 2–11 sub-genotypic allelic clusters among the genes of Wa- and DS-1-like strains. Most study strains clustered into previously defined alleles. Amino acid (AA) substitutions occurring in the neutralization epitopes of the VP7 and VP4 proteins characterized in this study were mostly neutral in nature, suggesting that these RVA proteins were possibly under strong negative or purifying selection in order to maintain competent and actual functionality, but fourteen radical (AA changes that occur between groups) AA substitutions were noted that may allow RVA strains to gain a selective advantage through immune escape. The tracking of RVA strains at the sub-genotypic allele constellation level will enhance our understanding of RVA evolution under vaccine pressure, help identify possible mechanisms of immune escape, and provide valuable information for formulation of future RVA vaccines.
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- 2021
12. Molecular characterization of a human G20P[28] rotavirus a strain with multiple genes related to bat rotaviruses
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Sunando Roy, Michael D. Bowen, Kunchala Rungsrisuriyachai, Mathew D. Esona, Gloria Rey-Benito, Sandra Hermelijn, and Rashi Gautam
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0301 basic medicine ,Microbiology (medical) ,Rotavirus ,Genotype ,viruses ,030106 microbiology ,Genome, Viral ,Biology ,medicine.disease_cause ,Microbiology ,Article ,Rotavirus Infections ,03 medical and health sciences ,Open Reading Frames ,Phylogenetics ,Chiroptera ,Genetics ,medicine ,Animals ,Humans ,Molecular Biology ,Gene ,Ecology, Evolution, Behavior and Systematics ,Phylogeny ,NSP1 ,Strain (biology) ,virus diseases ,Sequence Analysis, DNA ,Virology ,Open reading frame ,030104 developmental biology ,Infectious Diseases ,Child, Preschool ,Multilocus sequence typing ,Female ,Multilocus Sequence Typing - Abstract
Group A rotaviruses are the major cause of severe gastroenteritis in the young of mammals and birds. This report describes characterization of an unusual G20P[28] rotavirus strain detected in a 24 month old child from Suriname. Genomic sequence analyses revealed that the genotype constellation of the Suriname strain RVA/Human-wt/SUR/2014735512/2013/G20P[28] was G20-P[28]-I13-R13-C13-M12-A23-N13-T15-E20-H15. Genes VP1, VP2, VP3, NSP1, NSP2, NSP3, NSP4 and NSP5 were recently assigned novel genotypes by the Rotavirus Classification Working Group (RCWG). Three of the 11 gene segments (VP7, VP4, VP6) were similar to cognate gene sequences of bat-like human rotavirus strain Ecu534 from Ecuador and the VP7, NSP3 and NSP5 gene segments of strain RVA/Human-wt/SUR/2014735512/2013/G20P[28] were found to be closely related to gene sequences of bat rotavirus strain 3081/BRA detected in Brazil. Although distantly related, the VP1 gene of the study strain and bat strain BatLi09 detected in Cameroon in 2014 are monophyletic. The NSP1 gene was found to be most closely related to human strain QUI-35-F5 from Brazil. These findings suggest that strain RVA/Human-wt/SUR/2014735512/2013/G20P[28] represents a zoonotic infection from a bat host.
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- 2017
13. 652. What Is Blood Got to Do with It? Genetic Susceptibility to Norovirus and Rotavirus Infection: Results From the SUPERNOVA Network
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Vincent C. Marconi, Anita Kambhampati, Frederick H. Neill, Aleksandra Poteshkina, Cristina V. Cardemil, Adrienne Perea, Kathryn L Meagley, Scott Grytdal, David O. Beenhouwer, Michael D. Bowen, Sheldon T. Brown, Jan Vinjé, Aron J. Hall, Blanca Vargas, Robert L. Atmar, Umesh D. Parashar, Maria C. Rodriguez-Barradas, Hannah Browne, and Rashi Gautam
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business.industry ,viruses ,Rotavirus Infections ,virus diseases ,Stool specimen ,medicine.disease_cause ,Virology ,Rotavirus infection ,Abstracts ,Infectious Diseases ,fluids and secretions ,Oncology ,B. Poster Abstracts ,Rotavirus ,Genotype ,medicine ,Norovirus ,Genetic predisposition ,business - Abstract
Background Histo-blood group antigens (HBGAs), whose expression is controlled in part by fucosyltransferase 2 (FUT2) and 3 (FUT3) genes, serve as receptors for norovirus and rotavirus. Individuals without functional FUT2 (nonsecretors) or FUT3 (Lewis-negative) genes may have decreased susceptibility to norovirus and rotavirus infections. As the prevalence of secretor and Lewis status can vary by race and ethnicity, we assessed this association in a US Veteran population. Methods Stool and saliva specimens were collected from acute gastroenteritis (AGE) cases and age- and time-matched controls through a multisite, active surveillance platform at four Veterans Affairs hospitals (Atlanta, Bronx, Houston, Los Angeles). Stool specimens were tested with the FilmArray Gastrointestinal Panel; norovirus and rotavirus positive specimens were genotyped. Saliva specimens were analyzed for HBGA expression by EIA using glycan-specific monoclonal antibodies and lectins. Chi-squared and Fisher’s exact tests were conducted to evaluate associations between secretor and Lewis status and infection with norovirus or rotavirus. Results From November 4, 2015–December 30, 2017, 670 AGE cases and 319 controls provided both stool and saliva specimens. Norovirus (21 GII.4 Sydney, 13 GII non-4, 7 GI, 10 untyped) and rotavirus (13 G12P[8], 1 G2P[4], 1 untyped) positive cases were more likely to be secretor positive (90% and 100%, respectively) compared with controls (76%) (P = 0.03 for both). Infections with GII.4 Sydney norovirus (P < 0.01) and G12P[8] rotavirus (P < 0.05) were significantly associated with secretor status. This association was not observed with other norovirus or rotavirus genotypes. No association was observed between Lewis status, race, or ethnicity and infection with norovirus or rotavirus. Conclusion Norovirus and rotavirus infections among a US Veteran population were associated with secretor status in a genotype-dependent manner, and with GII.4 Sydney norovirus and G12P[8] rotavirus, the most common strains. These associations are consistent with previously reported results, and suggest that the efficacy of interventions, such as vaccines, should include consideration of secretor status and predominantly circulating virus strains. Disclosures R. L. Atmar, Takeda Vaccines, Inc.: Investigator, Research grant. V. C. Marconi, ViiV: Investigator, Research support and Salary. Gilead: Investigator, Research support. Bayer: Investigator, Research support.
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- 2018
14. 2322. Etiology, Severity of Illness, and Risk Factors for Patients Hospitalized with Acute Gastroenteritis from Multi-Site Veteran’s Affairs (VA) Surveillance, 2016–2018: Results from SUPERNOVA
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Neha Balachandran, Sheldon T. Brown, Anita Kambhampati, Jan Vinjé, Karen V. Evangelista, Scott Grytdal, Mark Holodniy, Cristina V. Cardemil, Kathryn L Meagley, Blanca Vargas, Cynthia Lucero-Obusan, Adrienne Perea, David O. Beenhouwer, Aron J. Hall, Vincent C. Marconi, Michael D. Bowen, Maria C. Rodriguez-Barradas, Hannah Browne, Umesh D. Parashar, and Rashi Gautam
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Pediatrics ,medicine.medical_specialty ,business.industry ,Multi site ,Acute gastroenteritis ,medicine.disease_cause ,Hiv seropositivity ,Causality ,Intensive care unit ,law.invention ,Abstracts ,Infectious Diseases ,Oncology ,law ,Severity of illness ,Poster Abstracts ,Norovirus ,medicine ,Etiology ,business - Abstract
Background The severity of acute gastroenteritis (AGE) in adult populations and the relative contribution of specific pathogens is not well characterized. In 2016, we implemented a multisite AGE surveillance platform in 4 VA hospitals (Atlanta, Bronx, Houston and Los Angeles), collectively serving > 320,000 patients annually. Methods Inpatient AGE cases and age- and time-matched non-AGE controls were identified through prospective screening of admissions using standardized case definitions. Stool samples were tested for 22 pathogens using the FilmArray® Gastrointestinal Panel. Medical conditions were analyzed as risk factors for AGE by multivariate logistic regression. Results From July 2016 to June 2018, 731 cases and 399 controls were enrolled. Risk factors for AGE cases included HIV-positive status (adjusted odds ratio [aOR] 4.6; 95% confidence interval [CI] 1.6–12.9; P < 0.01), severe kidney disease (aOR 4.5; 95% CI 2.0–9.8; P < 0.01), and immunosuppressive therapy (aOR 4.0; 95% CI 1.2–13.3]; P = 0.02). Clostridioides difficile and norovirus were the most commonly detected pathogens in cases (18% and 5%, respectively); detection of these pathogens in cases was significantly higher than detection in controls (8% and 2%, respectively; P < 0.01 for both). The median duration of hospital stay was longer for C. difficile compared with norovirus cases (5 vs. 3 days; P < 0.01), and cases with both pathogens had intensive care unit (ICU) stays (C. difficile: 18%; norovirus: 8%; P = 0.2). Fourteen deaths occurred among AGE cases; 2 were associated with C. difficile and 1 with norovirus; the remainder did not have a clear etiology or pathogen detected. C. difficile and norovirus were detected year-round with a fall and winter predominance; C. difficile prevalence was highest in October, while norovirus prevalence was six times higher in December than in summer months. Conclusion This surveillance platform captured cases of severe AGE, including ICU stays and deaths, among hospitalized US Veterans. C. difficile and norovirus were leading pathogens in AGE cases. These findings can help guide appropriate clinical management of AGE patients and inform public health efforts to quantify and address the associated burden of disease through targeted interventions. Disclosures All authors: No reported disclosures.
- Published
- 2019
15. Full genomic characterization and phylogenetic analysis of a zoonotic human G8P[14] rotavirus strain detected in a sample from Guatemala☆
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Beatriz Lopez, Michael D. Bowen, Rashi Gautam, Gloria Rey-Benito, Sunando Roy, Mathew D. Esona, Slavica Mijatovic-Rustempasic, and Yolanda Mencos
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Microbiology (medical) ,Rotavirus ,Lineage (genetic) ,Genes, Viral ,Reassortment ,Genome, Viral ,Biology ,medicine.disease_cause ,Microbiology ,Genome ,Article ,Rotavirus Infections ,Open Reading Frames ,Phylogenetics ,Zoonoses ,Genotype ,Genetics ,medicine ,Animals ,Humans ,Molecular Biology ,Ecology, Evolution, Behavior and Systematics ,Phylogeny ,Phylogenetic tree ,Strain (biology) ,Genomics ,Guatemala ,Virology ,Infectious Diseases - Abstract
We report the genomic characterization of a rare human G8P[14] rotavirus strain, identified in a stool sample from Guatemala (GTM) during routine rotavirus surveillance. This strain was designated as RV A/Human-wt/GTM/2009726790/2009/G8P[14], with a genomic constellation of G8-P[14]-I2-R2-C2-M2-A13-N2-T6-E2-H3. The VP4 gene occupied lineage VII within the P[14] genotype. Phylogenetic analysis of each genome segment revealed close relatedness to several zoonotic simian, guanaco and bovine strains. Our findings suggest that strain RVA/Human-wt/GTM/2009726790/2009/G8P[14] is an example of a direct zoonotic transmission event. The results of this study reinforce the potential role of interspecies transmission and reassortment in generating novel and rare rotavirus strains which infect humans.
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- 2015
16. Effectiveness of Monovalent and Pentavalent Rotavirus Vaccine
- Author
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Jacqueline E. Tate, Trisha Chan, Melissa Held, Carol Barrett, Osbourne Quaye, Slavica Mijatovic-Rustempasic, Shabnam Jain, Umesh D. Parashar, Lilly Cheng Immergluck, Rashi Gautam, Saadia Khizer, Jessica Moore, Michael D. Bowen, Marietta Vázquez, Margaret M. Cortese, and Alexandra P. Grizas
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Male ,Pediatrics ,medicine.medical_specialty ,Georgia ,Immunization, Secondary ,medicine.disease_cause ,Vaccines, Attenuated ,Article ,Rotavirus Infections ,Pentavalent vaccine ,Patient Admission ,Rotavirus ,medicine ,Confidence Intervals ,Humans ,business.industry ,Case-control study ,Rotavirus Vaccines ,Infant ,Emergency department ,Hospitals, Pediatric ,Rotavirus vaccine ,Confidence interval ,Diarrhea ,Treatment Outcome ,Immunization ,Case-Control Studies ,Pediatrics, Perinatology and Child Health ,Diarrhea, Infantile ,Utilization Review ,Female ,medicine.symptom ,business ,Emergency Service, Hospital - Abstract
OBJECTIVE: Previous US evaluations have not assessed monovalent rotavirus vaccine (RV1, a G1P[8] human rotavirus strain) effectiveness, because of its later introduction (2008). Using case-control methodology, we measured the vaccine effectiveness (VE) of the 2-dose RV1 and 3-dose pentavalent vaccine (RV5) series against rotavirus disease resulting in hospital emergency department or inpatient care. METHODS: Children were eligible for enrollment if they presented to 1 of 5 hospitals (3 in Georgia, 2 in Connecticut) with diarrhea of ≤10 days’ duration during January through June 2010 or 2011, and were born after RV1 introduction. Stools were collected; immunization records were obtained from providers and state electronic immunization information system (IIS). Case-subjects (children testing rotavirus antigen-positive) were compared with 2 control groups: children testing rotavirus negative and children selected from IIS. RESULTS: Overall, 165 rotavirus-case subjects and 428 rotavirus-negative controls were enrolled. Using the rotavirus-negative controls, RV1 VE was 91% (95% confidence interval [CI] 80 to 95) and RV5 VE was 92% (CI 75 to 97) among children aged ≥8 months. The RV1 VE against G2P[4] disease was high (94%, CI 78 to 98), as was that against G1P[8] disease (89%, CI 70 to 96). RV1 effectiveness was sustained among children aged 12 through 23 months (VE 91%; CI 75 to 96). VE point estimates using IIS controls were similar to those using rotavirus-negative controls. CONCLUSIONS: RV1 and RV5 were both highly effective against severe rotavirus disease. RV1 conferred sustained protection during the first 2 years of life and demonstrated high effectiveness against G2P[4] (heterotypic) disease.
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- 2013
17. Hermansky-Pudlak syndrome type 7 (HPS-7) results from mutant dysbindin, a member of the biogenesis of lysosome-related organelles complex 1 (BLOC-1)
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Richard T. Swank, Naoki Oiso, Edward K. Novak, Derek J. Blake, Rosemary W. Elliott, Bruce A. Roe, Richard A. Spritz, Nancy A. Jenkins, Wei Li, Marta Starcevic, Dominick Amato, Caroline L. Tinsley, Stephen F. Kingsmore, Esteban C. Dell'Angelica, Neal G. Copeland, Qing Zhang, Vishnu S. Mishra, Richard Paylor, Rashi Gautam, and Edward P. O'Brien
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Male ,Biogenesis of lysosome-related organelles complex 1 ,Macromolecular Substances ,Molecular Sequence Data ,HPS5 ,Mice, Transgenic ,Biology ,medicine.disease_cause ,Article ,Mice ,hemic and lymphatic diseases ,Lectins ,Genetics ,medicine ,Animals ,Humans ,Mutation ,Mice, Inbred C3H ,Melanosomes ,Dysbindin ,Intracellular Signaling Peptides and Proteins ,Membrane Proteins ,Middle Aged ,medicine.disease ,Phosphoproteins ,Oculocutaneous albinism ,Molecular biology ,eye diseases ,Mice, Inbred C57BL ,Cytoskeletal Proteins ,Membrane protein ,Hermanski-Pudlak Syndrome ,Mice, Inbred DBA ,COS Cells ,Dystrophin-Associated Proteins ,Female ,Hermansky–Pudlak syndrome ,Carrier Proteins ,Biogenesis ,Protein Binding - Abstract
Hermansky-Pudlak syndrome (HPS; MIM 203300) is a genetically heterogeneous disorder characterized by oculocutaneous albinism, prolonged bleeding and pulmonary fibrosis due to abnormal vesicle trafficking to lysosomes and related organelles, such as melanosomes and platelet dense granules. In mice, at least 16 loci are associated with HPS, including sandy (sdy; ref. 7). Here we show that the sdy mutant mouse expresses no dysbindin protein owing to a deletion in the gene Dtnbp1 (encoding dysbindin) and that mutation of the human ortholog DTNBP1 causes a novel form of HPS called HPS-7. Dysbindin is a ubiquitously expressed protein that binds to alpha- and beta-dystrobrevins, components of the dystrophin-associated protein complex (DPC) in both muscle and nonmuscle cells. We also show that dysbindin is a component of the biogenesis of lysosome-related organelles complex 1 (BLOC-1; refs. 9-11), which regulates trafficking to lysosome-related organelles and includes the proteins pallidin, muted and cappuccino, which are associated with HPS in mice. These findings show that BLOC-1 is important in producing the HPS phenotype in humans, indicate that dysbindin has a role in the biogenesis of lysosome-related organelles and identify unexpected interactions between components of DPC and BLOC-1.
- Published
- 2003
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