Your search keyword '"Paramyxoviruses"' showing total 507 results

1. University of Manitoba Researcher Adds New Findings in the Area of Mumps Virus (Serologic Cross-Reactivity between the Mumps Virus Vaccine Genotype A Strain and the Circulating Genotype G Strain).

Subjects

ORAL diseases, BIOLOGICAL products, MEDICAL microbiology, COMMUNICABLE diseases, PARAMYXOVIRUSES

Abstract

Recent research conducted at the University of Manitoba in Canada has found that mumps outbreaks in vaccinated young adults may be due to the antigenic differences between the mumps virus (MuV) genotype A strain used in the vaccine and the circulating genotype G strain. The study examined the cross-reactivity between the two genotypes and found that vaccinated individuals had higher titers for the HN and F proteins of genotype A compared to genotype G. However, individuals who were infected with mumps showed lower titers for genotype A compared to genotype G. These findings suggest that antigenic variations between the two genotypes may result in immune escape of the circulating strain, making individuals susceptible to the MuV. [Extracted from the article]

Published

2024

2. Reports Summarize Respiratory Syncytial Viruses Research from Johns Hopkins University School of Medicine (Genomic Evolution and Surveillance of Respiratory Syncytial Virus during the 2023-2024 Season).

Subjects

RESPIRATORY syncytial virus, RESPIRATORY syncytial virus infection vaccines, REPORTERS & reporting, PARAMYXOVIRUSES, MEDICAL microbiology

Abstract

A recent study conducted by researchers at Johns Hopkins University School of Medicine examined the genomic evolution and surveillance of respiratory syncytial virus (RSV) during the 2023-2024 season. The study found that RSV-B GB5.0.5a was the dominant genotype detected, although RSV-A genotype GA2.3.5 was also present. Patients with RSV-A infections were more frequently hospitalized, despite RSV-B being more commonly detected. The study provides important baseline data for genomic surveillance of RSV and will contribute to understanding the impact of newly approved RSV vaccines on viral evolution and the emergence of escape mutations. [Extracted from the article]

Published

2024

3. Researcher at University of Colombo Has Published New Data on Measles Virus (Resurgence of measles virus infection in an eliminated country, Sri Lanka).

Subjects

VIRUS diseases, MEASLES virus, RESEARCH personnel, MEDICAL microbiology, PARAMYXOVIRUSES

Abstract

A recent study conducted at the University of Colombo in Sri Lanka has examined the resurgence of measles virus infection in the country. The study analyzed samples tested for measles from May to November 2023 and found that 49.5% of patients were confirmed to have measles. The study also identified the genotype of the virus as D8, which is one of the two genotypes currently circulating globally. The researchers emphasized the importance of a strengthened virological surveillance system in an eliminated country like Sri Lanka. [Extracted from the article]

Published

2024

4. Molecular characterization of measles virus strains circulating in Cameroon during the 2013-2016 epidemics.

Author

Obam Mekanda, Franck-Martin, Monamele, Chavely Gwladys, Simo Nemg, Frédy Brice, Yonga, Gilde Martial, Ouapi, Diane, Penlap Beng, Véronique, Batéjat, Christophe, Caro, Valérie, Manuguerra, Jean-Claude, and Demanou, Maurice

Subjects

*MEASLES virus, *EPIDEMICS, *MEDICAL microbiology, *VIRUS diseases, *MEASLES

Abstract

The first genotyping data on measles virus (MeV) strains in Cameroon dates from 1994, while other studies were realized in 2001 and 2011 with the establishment of MeV virological surveillance. However, the genetic data of MeV strains circulating in Cameroon remains fragmented and concentrated in certain regions, hence the need for an update. The objective of this study was to have recent data on MeV genotypes circulating in Cameroon. Ninety throat swabs collected during recent measles outbreaks were analyzed by MeV genotyping RT-PCR using the nucleoprotein gene N. The resulting sequences were analyzed on the basis of 450 nucleotides with MEGA 7 software. Overall genome analysis was performed on 40/90 sequences. The strains were from all ten regions and all belonged to cluster 1 of genotype B3. The genotype B3 has been circulating in Cameroon for long periods of time; efforts must be made in immunization for its elimination. [ABSTRACT FROM AUTHOR]

Published

2019

5. Peptide presentation by bat MHC class I provides new insight into the antiviral immunity of bats.

Author

Lu, Dan, Liu, Kefang, Zhang, Di, Yue, Can, Lu, Qiong, Cheng, Hao, Wang, Liang, Chai, Yan, Qi, Jianxun, Wang, Lin-Fa, Gao, George F., and Liu, William J.

Subjects

*CORONAVIRUSES, *MERS coronavirus, *MIDDLE East respiratory syndrome, *PATHOGENIC viruses, *BATS, *MAJOR histocompatibility complex, *EBOLA virus

Abstract

Bats harbor many zoonotic viruses, including highly pathogenic viruses of humans and other mammals, but they are typically asymptomatic in bats. To further understand the antiviral immunity of bats, we screened and identified a series of bat major histocompatibility complex (MHC) I Ptal-N*01:01–binding peptides derived from four different bat-borne viruses, i.e., Hendra virus (HeV), Ebola virus (EBOV), Middle East respiratory syndrome coronavirus (MERS-CoV), and H17N10 influenza-like virus. The structures of Ptal-N*01:01 display unusual peptide presentation features in that the bat-specific 3–amino acid (aa) insertion enables the tight “surface anchoring” of the P1-Asp in pocket A of bat MHC I. As the classical primary anchoring positions, the B and F pockets of Ptal-N*01:01 also show unconventional conformations, which contribute to unusual peptide motifs and distinct peptide presentation. Notably, the features of bat MHC I may be shared by MHC I from various marsupials. Our study sheds light on bat adaptive immunity and may benefit future vaccine development against bat-borne viruses of high impact on humans. [ABSTRACT FROM AUTHOR]

Published

2019

6. Development of a high-throughput assay to measure measles neutralizing antibodies.

Author

Alvarado-Facundo, Esmeralda, Audet, Susette, Moss, William J., and Beeler, Judy A.

Subjects

*MEASLES, *MEASLES virus, *VIRUS diseases, *TWO-way analysis of variance, *IMMUNOGLOBULINS, *RUBELLA, *VIRAL antibodies

Abstract

Measles virus is highly infectious and remains a leading cause of vaccine preventable deaths in children. Neutralizing antibody responses elicited by measles virus infection or immunization are a serological correlate of protection. We describe a high-throughput neutralization assay to improve surveillance for measles immunity. Measles virus-antibody mixtures were incubated on Vero cell monolayers and 24 hours later cell-lysates harvested and subjected to one-step SYBR green RT-qPCR to amplify a target sequence within the measles virus nucleoprotein gene. Neutralization endpoint titers were interpolated to determine the dilution that inhibited the relative amplicon copy number by at least 90% compared to the mean signal obtained in virus control wells in the absence of serum. Anti-measles virus and anti-measles hemagglutinin antisera specifically neutralized measles virus in the microneutralization RT-qPCR assay while pre-immune sera and sera raised against other viruses did not. The microneutralization RT-qPCR assay obeyed the Percentage Law for measles virus inputs ranging from 100–5000 TCID50/well. The linear range of the assay corresponds to measles antibody concentrations of 30 to 3000 mIU/mL. Bland-Altman analysis and two-way analysis of variance demonstrated that results obtained using the microneutralization RT-qPCR assay were comparable to those obtained using a plaque reduction neutralization test and correctly identified human serum samples that were seropositive (95% and 100%, sensitivity and specificity, respectively). Furthermore, these comparisons suggest that a concentration of 300 mIU/mL may be a conservative cut-point to use to identify individuals likely to be protected against severe measles disease when the endpoint is based on 90% inhibition of virus replication. Measles virus microneutralization RT-qPCR is a rapid, sensitive, specific, and robust assay for detecting measles neutralizing antibodies that may help to improve immunization strategies nationally and achieve measles elimination globally. [ABSTRACT FROM AUTHOR]

Published

2019

7. Investigation of an outbreak of acute respiratory disease in an indigenous village in Brazil: Contribution of Influenza A(H1N1)pdm09 and human respiratory syncytial viruses.

Author

Cardoso, Andrey Moreira, Resende, Paola Cristina, Paixao, Enny S., Tavares, Felipe G., Farias, Yasmin N., Barreto, Carla Tatiana G., Pantoja, Lídia N., Ferreira, Fernanda L., Martins, André Luiz, Lima, Ângela Barbosa, Fernandes, Daniella A., Sanches, Patrícia Machado, Almeida, Walquiria A. F., Rodrigues, Laura C., and Siqueira, Marilda M.

Subjects

*H1N1 influenza, *DISEASE outbreaks, *RESPIRATORY syncytial virus, *RESPIRATORY diseases, *INFLUENZA, *RESPIRATORY infections, *ACUTE diseases

Abstract

Analyses of the 2009 H1N1 influenza pandemic and post-pandemic years showed high attack rates and severity among indigenous populations. This study presents the characteristics of the first documented influenza outbreak in indigenous peoples in Brazil, that occurred from 30th March to 14th April 2016 in a Guarani village in Southeast Region. Acute respiratory infections were prospectively investigated. The majority of the 73 cases were influenza-like illness (ILI) (63.0%) or severe acute respiratory infection (SARI) (20.5%). The ILI+SARI attack rate (35.9%) decreased with increasing age. There was a high influenza vaccination rate (86.3%), but no statistically significant difference in vaccination rates between severe and non-severe cases was seen (p = 0.334). Molecular analyses of 19.2% of the cases showed 100% positivity for influenza A(H1N1)pdm09 and/or hRSV. Influenza A(H1N1)pdm09 was included in the 6B.1 genetic group, a distinct cluster with 13 amino acid substitutions of A/California/07/2009-like. The hRSV were clustered in the BA-like genetic group. The early arrival of the influenza season overlapping usual hRSV season, the circulation of a drifted influenza virus not covered by vaccine and the high prevalence of risk factors for infection and severity in the village jointly can explain the high attack rate of ARI, even with a high rate of influenza vaccination. The results reinforce the importance of surveillance of respiratory viruses, timely vaccination and controlling risk factors for infection and severity of in the indigenous populations in order to preventing disease and related deaths, particularly in children. [ABSTRACT FROM AUTHOR]

Published

2019

8. Unusual, stable replicating viruses generated from mumps virus cDNA clones.

Author

Bamford, Connor, Wignall-Fleming, Elizabeth, Sreenu, Vattipally B., Randall, Richard, Duprex, Paul, and Rima, Bertus

Subjects

*ANTISENSE DNA, *REVERSE genetics, *MUMPS, *GREEN fluorescent protein, *RECOMBINANT viruses, *VIRUSES

Abstract

In reverse genetic experiments we have isolated recombinant mumps viruses (rMuV) that carry large numbers of mutations clustered in small parts of their genome, which are not caused by biased hyper-mutation. In two separate experiments we obtained such recombinant viruses: one virus had 11 mutations in the V/P region of the genome; the other, which also contained an extra transcription unit encoding green fluorescent protein (EGFP), had 32 mutations in the N gene. These specific sets of mutations have not been observed in naturally occurring MuV isolates. Unusually, the vast majority of the mutations (48/51) were synonymous. On passage in Vero cells and human B-LCL cells, a B lymphocyte-like cell line, these mutations appear stable as no reversion occurred to the original consensus sequence, although mutations in other parts of the genome occurred and changed in frequency during passage. Defective interfering RNAs accumulate in passage in Vero cells but not in B-LCL cells. Interestingly, in all passaged samples the level of variation in the EGFP gene is the same as in the viral genes, though it is unlikely that this gene is under any functionality constraint. What mechanism gave rise to these viruses with clustered mutations and their stability remains an open question, which is likely of interest to a wider field than mumps reverse genetics. [ABSTRACT FROM AUTHOR]

Published

2019

9. Frequent detection of Saffold cardiovirus in adenoids.

Author

Lindner, Kira, Ludwig, Michael, Bootz, Friedrich, Reber, Ulrike, Safavieh, Zahrasadat, Eis-Hübinger, Anna Maria, and Herberhold, Stephan

Subjects

*ADENOIDS, *RESPIRATORY syncytial virus, *SEQUENCE analysis, *PICORNAVIRUSES, *NUCLEIC acids, *MEDICAL microbiology

Abstract

Saffold virus (SAFV) is classified into the Cardiovirus genus of the Picornaviridae family. Up to now, eleven genotypes have been identified however, their clinical significance remains unclear. Here, we investigated the presence of SAFV in asymptomatic patients admitted for adenoidectomy. A total of 70 adenoid tissue samples were collected from children with clinical symptoms caused by hypertrophy of adenoids but without symptoms of airway infection. Samples were investigated for SAFV by RT-nested PCR and sequence analysis. Eleven of 70 (15.7%) samples were positive for SAFV. Nasopharyngeal swabs were available from 45 children just before surgery. SAFV was rarely found and only in children with SAFV-positive adenoids 2/8. Our findings indicate that the presence of SAFV seems to be more frequent in adenoid tissue than expected. This could support the notion of a longer than previously anticipated persistence of SAFV nucleic acids in the respiratory tract and possibly a chronic infection. Further investigations are necessary to establish the role of SAFV infection in humans. [ABSTRACT FROM AUTHOR]

Published

2019

10. Prioritizing surveillance of Nipah virus in India.

Author

Plowright, Raina K., Becker, Daniel J., Crowley, Daniel E., Washburne, Alex D., Huang, Tao, Nameer, P. O., Gurley, Emily S., and Han, Barbara A.

Subjects

*NIPAH virus, *PARAMYXOVIRUSES, *VIRAL shedding, *VIRUS diseases, *MACHINE learning, *MEDICAL microbiology

Abstract

The 2018 outbreak of Nipah virus in Kerala, India, highlights the need for global surveillance of henipaviruses in bats, which are the reservoir hosts for this and other viruses. Nipah virus, an emerging paramyxovirus in the genus Henipavirus, causes severe disease and stuttering chains of transmission in humans and is considered a potential pandemic threat. In May 2018, an outbreak of Nipah virus began in Kerala, > 1800 km from the sites of previous outbreaks in eastern India in 2001 and 2007. Twenty-three people were infected and 21 people died (16 deaths and 18 cases were laboratory confirmed). Initial surveillance focused on insectivorous bats (Megaderma spasma), whereas follow-up surveys within Kerala found evidence of Nipah virus in fruit bats (Pteropus medius). P. medius is the confirmed host in Bangladesh and is now a confirmed host in India. However, other bat species may also serve as reservoir hosts of henipaviruses. To inform surveillance of Nipah virus in bats, we reviewed and analyzed the published records of Nipah virus surveillance globally. We applied a trait-based machine learning approach to a subset of species that occur in Asia, Australia, and Oceana. In addition to seven species in Kerala that were previously identified as Nipah virus seropositive, we identified at least four bat species that, on the basis of trait similarity with known Nipah virus-seropositive species, have a relatively high likelihood of exposure to Nipah or Nipah-like viruses in India. These machine-learning approaches provide the first step in the sequence of studies required to assess the risk of Nipah virus spillover in India. Nipah virus surveillance not only within Kerala but also elsewhere in India would benefit from a research pipeline that included surveys of known and predicted reservoirs for serological evidence of past infection with Nipah virus (or cross reacting henipaviruses). Serosurveys should then be followed by longitudinal spatial and temporal studies to detect shedding and isolate virus from species with evidence of infection. Ecological studies will then be required to understand the dynamics governing prevalence and shedding in bats and the contacts that could pose a risk to public health. [ABSTRACT FROM AUTHOR]

Published

2019

11. Estimating age-stratified influenza-associated invasive pneumococcal disease in England: A time-series model based on population surveillance data.

Author

Chiavenna, Chiara, Presanis, Anne M., Charlett, Andre, de Lusignan, Simon, Ladhani, Shamez, Pebody, Richard G., and De Angelis, Daniela

Subjects

*INFLUENZA, *VIRUS diseases, *RESPIRATORY syncytial virus, *BACTERIAL diseases, *AGE groups, *STREPTOCOCCUS pneumoniae, *DISEASE incidence

Abstract

Background: Measures of the contribution of influenza to Streptococcus pneumoniae infections, both in the seasonal and pandemic setting, are needed to predict the burden of secondary bacterial infections in future pandemics to inform stockpiling. The magnitude of the interaction between these two pathogens has been difficult to quantify because both infections are mainly clinically diagnosed based on signs and symptoms; a combined viral-bacterial testing is rarely performed in routine clinical practice; and surveillance data suffer from confounding problems common to all ecological studies. We proposed a novel multivariate model for age-stratified disease incidence, incorporating contact patterns and estimating disease transmission within and across groups.Methods and Findings: We used surveillance data from England over the years 2009 to 2017. Influenza infections were identified through the virological testing of samples taken from patients diagnosed with influenza-like illness (ILI) within the sentinel scheme run by the Royal College of General Practitioners (RCGP). Invasive pneumococcal disease (IPD) cases were routinely reported to Public Health England (PHE) by all the microbiology laboratories included in the national surveillance system. IPD counts at week t, conditional on the previous time point t-1, were assumed to be negative binomially distributed. Influenza counts were linearly included in the model for the mean IPD counts along with an endemic component describing some seasonal background and an autoregressive component mimicking pneumococcal transmission. Using age-specific counts, Akaike information criterion (AIC)-based model selection suggested that the best fit was obtained when the endemic component was expressed as a function of observed temperature and rainfall. Pneumococcal transmission within the same age group was estimated to explain 33.0% (confidence interval [CI] 24.9%-39.9%) of new cases in the elderly, whereas 50.7% (CI 38.8%-63.2%) of incidence in adults aged 15-44 years was attributed to transmission from another age group. The contribution of influenza on IPD during the 2009 pandemic also appeared to vary greatly across subgroups, being highest in school-age children and adults (18.3%, CI 9.4%-28.2%, and 6.07%, CI 2.83%-9.76%, respectively). Other viral infections, such as respiratory syncytial virus (RSV) and rhinovirus, also seemed to have an impact on IPD: RSV contributed 1.87% (CI 0.89%-3.08%) to pneumococcal infections in the 65+ group, whereas 2.14% (CI 0.87%-3.57%) of cases in the group of 45- to 64-year-olds were attributed to rhinovirus. The validity of this modelling strategy relies on the assumption that viral surveillance adequately represents the true incidence of influenza in the population, whereas the small numbers of IPD cases observed in the younger age groups led to significant uncertainty around some parameter estimates.Conclusions: Our estimates suggested that a pandemic wave of influenza A/H1N1 with comparable severity to the 2009 pandemic could have a modest impact on school-age children and adults in terms of IPD and a small to negligible impact on infants and the elderly. The seasonal impact of other viruses such as RSV and rhinovirus was instead more important in the older population groups. [ABSTRACT FROM AUTHOR]

Published

2019

12. Molecular characterization of measles viruses in China: Circulation dynamics of the endemic H1 genotype from 2011 to 2017.

Author

Wang, Huiling, Zhang, Yan, Mao, Naiying, Zhu, Zhen, Cui, Aili, Xu, Songtao, Song, Jinhua, Chen, Meng, Fang, Xueqiang, Li, Chongshan, Feng, Daxing, Zhou, Shujie, Wang, Shulei, Shi, Jing, Ji, Yixin, Cao, Lei, Ren, Li, Gao, Lingyu, and Xu, Wenbo

Subjects

*MEASLES virus, *HERD immunity, *GENOTYPES, *VIRUS diseases, *MEASLES, *RUBELLA

Abstract

Due to the Expanded Program on Immunization (EPI) and supplementary immunization activities (SIAs) in China, the incidence of measles in China has decreased extensively. The incidence reached its lowest levels in contemporary history in 2012 and 2017, with incidence rates of 4.6 and 4.3 per million population, respectively. However, more than 147,000 measles cases were reported from 2013 to 2016. Furthermore, the proportions of cases in infants < 8 months and adults have been increasing since 2013, representing a considerable challenge for measles elimination in China. A total of 14,868 measles viruses were isolated from confirmed measles cases from 2011 to 2017, of which 14,631 were identified as the predominant endemic genotype, H1; 87 were identified as genotype A viruses that were vaccine associated strains; and 150 were identified as non-H1 genotype viruses. The non-H1 genotype viruses included 62 D8 viruses, 70 D9 viruses, 3 D11 viruses, 14 B3 viruses, and 1 G3 virus, which were identified as imported or import-related viruses that caused sporadic cases or small outbreaks. Most of the transmission chains detected during the period 2011–2012 were interrupted and were followed by many new transmission chains of unknown origin that spread, causing a large measles resurgence in China during 2013–2016. After 4 years of measles resurgence and continuous implementation of the routine immunization program and SIAs, the population immunity reached a sufficiently high level to interrupt most of the transmission chains; only a few strains survived, which continued to be sporadically detected in China in 2017. In the present study, the results from the combined epidemiological and molecular virological data demonstrated the great progress towards measles elimination in China by the further analysis of circulation dynamics for the endemic H1 genotype measles virus from 2011 to 2017. And this study accumulated critical baseline data on circulating wild-type measles viruses in China and provides comprehensive information to the world. These comprehensive baseline data provide evidence to support measles elimination in the future, not only in China but also in other countries worldwide. In addition, the information will be very useful to other countries for tracing their sources of measles cases and for identifying transmission links, which can help prevent potential measles outbreaks. [ABSTRACT FROM AUTHOR]

Published

2019

13. Human coronavirus alone or in co-infection with rhinovirus C is a risk factor for severe respiratory disease and admission to the pediatric intensive care unit: A one-year study in Southeast Brazil.

Author

Matsuno, Alessandra K., Gagliardi, Talita B., Paula, Flavia E., Luna, Luciano K. S., Jesus, Bruna L. S., Stein, Renato T., Aragon, Davi C., Carlotti, Ana P. C. P., and Arruda, Eurico

Subjects

*CORONAVIRUS diseases, *HOSPITAL admission & discharge, *INTENSIVE care units, *RESPIRATORY syncytial virus, *PEDIATRIC intensive care, *RHINOVIRUSES, *RESPIRATORY infections in children, *MIXED infections

Abstract

Objective: We aimed to assess the profile of respiratory viruses in young children hospitalized for acute lower respiratory tract infection (ALRI) and its association with disease severity, defined as need for pediatric intensive care unit (PICU) admission. Design: Prospective observational cohort study. Setting: A tertiary-care university hospital in Brazil. Patients: Children younger than three years attending the pediatric emergency room with ALRI who were admitted to the hospital. Interventions: None. Measurements and main results: Nasopharyngeal aspirates were collected from patients from June 1st, 2008 to May 31st, 2009within the first 48 hours of hospitalization. Nasopharyngeal aspirates were tested for 17humanrespiratory viruses by molecular and immunofluorescence based assays. Simple and multiple log-binomial regression models were constructed to assess associations of virus type with a need for PICU admission. Age, prematurity, the presence of an underlying disease and congenital heart disease were covariates. Nasopharyngeal aspirates were positive for at least one virus in 236 patients. Rhinoviruses were detected in 85.6% of samples, with a preponderance of rhinovirus C (RV-C) (61.9%). Respiratory syncytial virus was detected in 59.8% and human coronavirus (HCoV) in 11% of the samples. Co-detections of two to five viruses were found in 78% of the patients. The detection of HCoV alone (adjusted relative risk (RR) 2.18; 95% CI 1.15–4.15) or in co-infection with RV-C (adjusted RR 2.37; 95% CI 1.23–4.58) was independently associated with PICU admission. Conclusions: The detection of HCoV alone or in co-infection with RV-C was independently associated with PICU admission in young children hospitalized for ALRI. [ABSTRACT FROM AUTHOR]

Published

2019

14. Identification and quantification of defective virus genomes in high throughput sequencing data using DVG-profiler, a novel post-sequence alignment processing algorithm.

Author

Bosma, Trent J., Karagiannis, Konstantinos, Santana-Quintero, Luis, Ilyushina, Natalia, Zagorodnyaya, Tatiana, Petrovskaya, Svetlana, Laassri, Majid, Donnelly, Raymond P., Rubin, Steven, Simonyan, Vahan, and Sauder, Christian J.

Subjects

*VIRAL genomes, *SENDAI virus, *PARAINFLUENZA viruses, *VIRUS research

Abstract

Most viruses are known to spontaneously generate defective viral genomes (DVG) due to errors during replication. These DVGs are subgenomic and contain deletions that render them unable to complete a full replication cycle in the absence of a co-infecting, non-defective helper virus. DVGs, especially of the copyback type, frequently observed with paramyxoviruses, have been recognized to be important triggers of the antiviral innate immune response. DVGs have therefore gained interest for their potential to alter the attenuation and immunogenicity of vaccines. To investigate this potential, accurate identification and quantification of DVGs is essential. Conventional methods, such as RT-PCR, are labor intensive and will only detect primer sequence-specific species. High throughput sequencing (HTS) is much better suited for this undertaking. Here, we present an HTS-based algorithm called DVG-profiler to identify and quantify all DVG sequences in an HTS data set generated from a virus preparation. DVG-profiler identifies DVG breakpoints relative to a reference genome and reports the directionality of each segment from within the same read. The specificity and sensitivity of the algorithm was assessed using both in silico data sets as well as HTS data obtained from parainfluenza virus 5, Sendai virus and mumps virus preparations. HTS data from the latter were also compared with conventional RT-PCR data and with data obtained using an alternative algorithm. The data presented here demonstrate the high specificity, sensitivity, and robustness of DVG-profiler. This algorithm was implemented within an open source cloud-based computing environment for analyzing HTS data. DVG-profiler might prove valuable not only in basic virus research but also in monitoring live attenuated vaccines for DVG content and to assure vaccine lot to lot consistency. [ABSTRACT FROM AUTHOR]

Published

2019

15. Sero-epidemiological study in prediction of the risk groups for measles outbreaks in Vojvodina, Serbia.

Author

Ristić, Mioljub, Milošević, Vesna, Medić, Snežana, Djekić Malbaša, Jelena, Rajčević, Smiljana, Boban, Jasmina, and Petrović, Vladimir

Subjects

*MUMPS, *RUBELLA, *MEASLES, *MEASLES vaccines, *AGE groups, *IMMUNIZATION, *VACCINATION

Abstract

Background: Age-stratified serologic surveys provide insight into the gaps of measles-specific immunity as well as estimates of the age-specific seroprevalence. The aim of this study was to describe the measles sero-epidemiology in Vojvodina before the occurrence of outbreak in 2017/18 and to discuss preventive measures for potential future epidemics. Methods: A seroprevalence study was conducted from April 2015 to June 2017 on serum bank of 3199 residual samples. Study was performed prior to the last measles outbreak in Vojvodina that occurred between 12th November 2017 and 30th June 2018. Measles-specific IgG antibodies were determined using an indirect chemiluminescent immunoassay (CLIA). Results: Median age of enrolled participants was 20 years (IQR 11–37). Overall, 86.9% serum samples were seropositive. The highest proportion of measles seronegativity was observed in children aged 12–23 months of age and in adults aged 20–39 years (56.1% and 18.5%, respectively). Prevalence of measles seronegativity above WHO target levels susceptibility was observed in the following age groups: 2, 7, 13, 15, and among all adults aged between 20 and 49 years. Out of total measles outbreak cases (177), there were 91 (51.4%) participants aged 20–39 years. A significant positive correlation was observed between measles seronegativity and the number of reported measles cases aged ≥ 12 months (r = 0.4675, p = 0.0213). Conclusions: In order to prevent new outbreaks and achieve the elimination of measles in Vojvodina, the vaccination coverage of both measles-mumps-rubella (MMR1 and MMR2) vaccines needs to be improved and sustained. Educational campaigns for the improvement of acceptance and timely vaccination with vaccine against measles among doctors and the general population are crucial. Our results indicate possible gap in measles protection in adults born during implementation of one dose of measles vaccine and prioritize supplementary immunization activities targeting adults in Vojvodina, Serbia. [ABSTRACT FROM AUTHOR]

Published

2019

16. Uncovering critical properties of the human respiratory syncytial virus by combining in vitro assays and in silico analyses.

Author

Beauchemin, Catherine A. A., Kim, Young-In, Yu, Qin, Ciaramella, Giuseppe, and DeVincenzo, John P.

Subjects

*RESPIRATORY syncytial virus, *RESPIRATORY syncytial virus infections

Abstract

Many aspects of the respiratory syncytial virus (RSV) are still poorly understood. Yet these knowledge gaps have had and could continue to have adverse, unintended consequences for the efficacy and safety of antivirals and vaccines developed against RSV. Mathematical modelling was used to test and evaluate hypotheses about the rate of loss of RSV infectivity and the mechanisms and kinetics of RSV infection spread in SIAT cells in vitro. While the rate of loss of RSV integrity, as measured via qRT-PCR, is well-described by an exponential decay, the latter mechanism failed to describe the rate at which RSV A Long loses infectivity over time in vitro based on the data presented herein. This is unusual given that other viruses (HIV, HCV, influenza) have been shown to lose their infectivity exponentially in vitro, and indeed an exponential rate of loss of infectivity is always assumed in mathematical modelling and experimental analyses. The infectivity profile of RSV in HEp-2 and SIAT cells remained consistent over the course of an RSV infection, over time and a large range of infectivity. However, SIAT cells were found to be ∼ 100× less sensitive to RSV infection than HEp-2 cells. In particular, we found that RSV spreads inefficiently in SIAT cells, in a manner we show is consistent with the establishment of infection resistance in uninfected cells. SIAT cells are a good in vitro model in which to study RSV in vivo dissemination, yielding similar infection timescales. However, the higher sensitivity of HEp-2 cells to RSV together with its RSV infectivity profile being similar to that of SIAT cells, makes HEp-2 cells more suitable for quantifying RSV infectivity over the course of in vitro RSV infections in SIAT cells. Our findings highlight the importance and urgency of resolving the mechanisms at play in the dissemination of RSV infections in vitro, and the processes by which this infectivity is lost. [ABSTRACT FROM AUTHOR]

Published

2019

17. Synthetic surfactin analogues have improved anti-PEDV properties.

Author

Yuan, Lvfeng, Zhang, Shuai, Peng, Jie, Li, Yuchen, and Yang, Qian

Subjects

*CRITICAL micelle concentration, *ANTIVIRAL agents, *MEMBRANE fusion, *VIRAL envelopes, *SURFACTIN, *CARBOXYL group

Abstract

Surfactin has antiviral activity against various enveloped viruses by inhibiting viral membrane fusion. However, the potential utility of surfactin as an antiviral drug is limited by its cytotoxicity. In this study, 10 surfactin analogues were obtained by chemical synthesis and evaluated to determine their anti-PEDV activities, hemolytic activities, and critical micelle concentrations. The main goal of our study was to develop a safer drug; a surfactin analogue with high anti-PEDV activity and low hemolytic activity. Compared with surfactin, one of the analogues we developed, SLP5, has lower hemolytic activity, with the same antiviral activity. The selectivity index of SLP5 is 52, while the SI for surfactin is 4, in other words, the safe and effective concentration range of SLP5 is 12 times greater than that of surfactin. Like surfactin, SLP5 has a direct antiviral effect on PEDV. Structurally, SLP5 is a linear lipopeptide with three carboxyl groups. Surfactin derivatives similar to SLP5 could be obtained by lactone bond hydrolyzation of surfactin, as well as total synthesis. [ABSTRACT FROM AUTHOR]

Published

2019

18. A viral metagenomic survey identifies known and novel mammalian viruses in bats from Saudi Arabia.

Author

Mishra, Nischay, Fagbo, Shamsudeen F., Alagaili, Abdulaziz N., Nitido, Adam, Williams, Simon H., Ng, James, Lee, Bohyun, Durosinlorun, Abdulkareem, Garcia, Joel A., Jain, Komal, Kapoor, Vishal, Epstein, Jonathan H., Briese, Thomas, Memish, Ziad A., Olival, Kevin J., and Lipkin, W. Ian

Subjects

*ROTAVIRUSES, *CORONAVIRUSES, *BATS, *VIRUSES, *REOVIRUSES, *PICORNAVIRUSES, *PARAMYXOVIRUSES

Abstract

Bats are implicated as natural reservoirs for a wide range of zoonotic viruses including SARS and MERS coronaviruses, Ebola, Marburg, Nipah, Hendra, Rabies and other lyssaviruses. Accordingly, many One Health surveillance and viral discovery programs have focused on bats. In this report we present viral metagenomic data from bats collected in the Kingdom of Saudi Arabia [KSA]. Unbiased high throughput sequencing of fecal samples from 72 bat individuals comprising four species; lesser mouse-tailed bat (Rhinopoma hardwickii), Egyptian tomb bat (Taphozous perforatus), straw-colored fruit bat (Eidolon helvum), and Egyptian fruit bat (Rousettus aegyptiacus) revealed molecular evidence of a diverse set of viral families: Picornaviridae (hepatovirus, teschovirus, parechovirus), Reoviridae (rotavirus), Polyomaviridae (polyomavirus), Papillomaviridae (papillomavirus), Astroviridae (astrovirus), Caliciviridae (sapovirus), Coronaviridae (coronavirus), Adenoviridae (adenovirus), Paramyxoviridae (paramyxovirus), and unassigned mononegavirales (chuvirus). Additionally, we discovered a bastro-like virus (Middle East Hepe-Astrovirus), with a genomic organization similar to Hepeviridae. However, since it shared homology with Hepeviridae and Astroviridae at ORF1 and in ORF2, respectively, the newly discovered Hepe-Astrovirus may represent a phylogenetic bridge between Hepeviridae and Astroviridae. [ABSTRACT FROM AUTHOR]

Published

2019

19. Epidemiologic profile of measles in Central African Republic: A nine year survey, 2007-2015.

Author

Farra, Alain, Loumandet, Tuspin Nicephore, Pagonendji, Marilou, Manirakiza, Alexandre, Manengu, Casimir, Mbaïlao, Raphaël, Ndjapou, Severin, Lefaou, Alain, and Gouandjika-Vasilache, Ionela

Subjects

*MEDICAL personnel, *MEASLES, *RUBELLA, *VACCINATION, *VIRUS diseases, *MEDICAL microbiology

Abstract

Introduction: Measles remains a major public health problem in many developing countries in which vaccination coverage is poor, as is the case in the Central African Republic (CAR). At the beginning of the 2000s, a surveillance system was established in the country, and samples from suspected cases are regularly tested in the laboratory for serological confirmation. Since 2007, when case-by-case monitoring with standardized laboratory databases and monitoring, was set up, no assessment have been performed. Therfore, 9 years later it seemed appropriate to make a first assessment. The aim of the study reported here was to describe the epidemiology of measles in the CAR on the basis of surveillance and laboratory data. Method: A descriptive retrospective study was conducted, based on the databases of the measles surveillance programme and of the Institut Pasteur laboratory in Bangui during the period 2007–2015. Results: During this study period, the surveillance programme notified 3767 cases. Of these, 2795 (75%) were sent for laboratory confirmation, and 24.6% (687/2795) were confirmed serologically. Of the 1797 cases of measles declared during this period by the surveillance programme, 1110 (61.8%) were confirmed clinically or by epidemiological linkage. The majority of confirmed cases (83.7%; 575/687) occurred in children under 10 years, over half of whom (44.2%; 304/687) were aged 1–4 years. Epidemics occurred regularly between 2011 and 2015, with > 10% of laboratory-confirmed cases. The rate of laboratory investigation was < 80% between 2011 and 2013 but nearly 100% in the other years. Conclusion: Measles remains a common, endemic illness in the CAR. Improved detection will require better measles surveillance, increased vaccination coverage, revision of the investigation forms to include the WHO case definition and training of the health personnel involved in case-finding in the field. [ABSTRACT FROM AUTHOR]

Published

2019

20. In vitro and in silico multidimensional modeling of oncolytic tumor virotherapy dynamics.

Author

Berg, David R., Offord, Chetan P., Kemler, Iris, Ennis, Matthew K., Chang, Lawrence, Paulik, George, Bajzer, Zeljko, Neuhauser, Claudia, and Dingli, David

Subjects

*CANCER treatment, *CANCER cells, *VIRAL replication, *IN vitro studies, *RNA viruses

Abstract

Tumor therapy with replication competent viruses is an exciting approach to cancer eradication where viruses are engineered to specifically infect, replicate, spread and kill tumor cells. The outcome of tumor virotherapy is complex due to the variable interactions between the cancer cell and virus populations as well as the immune response. Oncolytic viruses are highly efficient in killing tumor cells in vitro, especially in a 2D monolayer of tumor cells, their efficiency is significantly lower in a 3D environment, both in vitro and in vivo. This indicates that the spatial dimension may have a major influence on the dynamics of virus spread. We study the dynamic behavior of a spatially explicit computational model of tumor and virus interactions using a combination of in vitro 2D and 3D experimental studies to inform the models. We determine the number of nearest neighbor tumor cells in 2D (median = 6) and 3D tumor spheroids (median = 16) and how this influences virus spread and the outcome of therapy. The parameter range leading to tumor eradication is small and even harder to achieve in 3D. The lower efficiency in 3D exists despite the presence of many more adjacent cells in the 3D environment that results in a shorter time to reach equilibrium. The mean field mathematical models generally used to describe tumor virotherapy appear to provide an overoptimistic view of the outcomes of therapy. Three dimensional space provides a significant barrier to efficient and complete virus spread within tumors and needs to be explicitly taken into account for virus optimization to achieve the desired outcome of therapy. [ABSTRACT FROM AUTHOR]

Published

2019

21. Pneumonia severity index in viral community acquired pneumonia in adults.

Author

Kim, Mi-Ae, Park, Jae Seok, Lee, Choong Won, and Choi, Won-Il

Subjects

*PNEUMONIA Severity Index, *COMMUNITY-acquired pneumonia, *HOSPITAL admission & discharge, *MEDICAL emergencies, *VIRUS diseases

Abstract

Pneumonia severity index (PSI) is an important scoring system that can assess the severity of community acquired pneumonia and determine admission status. However, there is a lack of research on whether this scoring system can be applied to viral community acquired pneumonia. The purpose of this study was to evaluate the usefulness of PSI in viral community acquired pneumonia. This retrospective cohort study included 1,434 adult patients (aged ≥18 years) who were admitted to the emergency department of a university hospital during 2013–2015 because of community-acquired pneumonia. Viral infections were diagnosed by multiplex PCR. Patients diagnosed with non-viral community-acquired pneumonia were included in the control group (N = 1,173). The main outcome was 30-day all-cause mortality. multivariate Cox regression analyses were performed to calculate the risk of death. Respiratory viruses were detected in 261 (18.2%) patients with community-acquired pneumonia. Two types of respiratory viruses were detected in 7 cases. Of the 254 cases detected with only one virus, 62 were influenza A, 18 were influenza B, 65 were rhinovirus, 35 were respiratory syncytial virus, 25 were metapneumovirus, 20 were parainfluenza, 17 were coronavirus, 7 were bocavirus, and 5 were adenovirus. Mortality was not significantly different between patients with respiratory virus and those without respiratory virus; the 30-day all-cause mortality rates were 20.3% and 22.4%, respectively (P = 0.45). Mortality rate increased with an increasing PSI score with or without respiratory viral infection. Pulmonary severity index was significantly associated with mortality adjusted for respiratory virus detection (hazard ratio = 1.024, 95% confidence interval = 1.020–1.028). Pneumonia severity index score is an important factor for assessing the prognosis of patients with community-acquired pneumonia, regardless of respiratory virus detection. [ABSTRACT FROM AUTHOR]

Published

2019

22. Multiplex PCR methods for detection of several viruses associated with canine respiratory and enteric diseases.

Author

Hao, Xiangqi, Liu, Ruohan, He, Yuwei, Xiao, Xiangyu, Xiao, Weiqi, Zheng, Qingxu, Lin, Xi, Tao, Pan, Zhou, Pei, and Li, Shoujun

Subjects

*RESPIRATORY disease diagnosis, *ENTEROVIRUSES, *CORONAVIRUSES, *POLYMERASE chain reaction, *SYMPTOMS

Abstract

Viral respiratory and intestinal infections are the most common causes of canine viral illness. Infection with multiple pathogens occurs in many cases. Rapid diagnosis of these multiple infections is important for providing timely and effective treatment. To improve diagnosis, in this study, two new multiplex polymerase chain reactions (mPCRs) were developed for simultaneous detection of canine respiratory viruses (CRV) and canine enteric viruses (CEV) using two separate primer mixes. The viruses included canine adenovirus type 2 (CAV-2), canine distemper virus (CDV), canine influenza virus (CIV), canine parainfluenza virus (CPIV), canine circovirus (CanineCV), canine coronavirus (CCoV) and canine parvovirus (CPV). The sensitivity of the mPCR results showed that the detection limit of both mPCR methods was 1×104 viral copies. Twenty nasal swabs (NS) and 20 anal swabs (AS) collected from dogs with symptoms of respiratory disease or enteric disease were evaluated using the novel mPCR methods as a clinical test. The mPCR protocols, when applied to these respiratory specimens and intestinal samples, could detect 7 viruses simultaneously, allowing rapid investigation of CRV (CAV-2, CDV, CIV and CPIV) and CEV (CAV-2, CanineCV, CCoV and CPV) status and prompt evaluation of coinfection. Our study provides an effective and accurate tool for rapid differential diagnosis and epidemiological surveillance in dogs. [ABSTRACT FROM AUTHOR]

Published

2019

23. Killing two birds with one stone: How the respiratory syncytial virus polymerase initiates transcription and replication.

Author

Noton, Sarah L., Tremaglio, Chadene Z., and Fearns, Rachel

Subjects

*RESPIRATORY syncytial virus, *PEDIATRIC respiratory diseases, *GENETIC transcription, *VIRAL replication, *MESSENGER RNA

Abstract

The article offers information on the study on Respiratory syncytial virus as the major cause of respiratory disease in infants and young children. Topics discussed include information on the transcription and replication of the virus; discussions on the engagement of the polymerase in the either of the process, transcription and replication; and the information on the how the relative levels of Messenger RNA (mRNA), antigenome, and genome synthesis controlled.

Published

2019

24. Viral infection detection using metagenomics technology in six poultry farms of eastern China.

Author

Qiu, Yuan, Wang, Suchun, Huang, Baoxu, Zhong, Huanxiang, Pan, Zihao, Zhuang, Qingye, Peng, Cheng, Hou, Guangyu, and Wang, Kaicheng

Subjects

*VIRAL disease diagnosis, *ANIMAL diseases, *METAGENOMICS, *AVIAN influenza A virus, *NEWCASTLE disease virus

Abstract

With rapidly increasing animal pathogen surveillance requirements, new technologies are needed for a comprehensive understanding of the roles of pathogens in the occurrence and development of animal diseases. We applied metagenomic technology to avian virus surveillance to study the main viruses infecting six poultry farms in two provinces in eastern China. Cloacal/throat double swabs were collected from 60 birds at each farm according to a random sampling method. The results showed that the method could simultaneously detect major viruses infecting farms, including avian influenza virus, infectious bronchitis virus, Newcastle disease virus, rotavirus G, duck hepatitis B virus, and avian leukemia virus subgroup J in several farms. The test results were consistent with the results from traditional polymerase chain reaction (PCR) or reverse transcription-PCR analyses. Five H9N2 and one H3N8 avian influenza viruses were detected at the farms and were identified as low pathogenic avian influenza viruses according to HA cleavage sites analysis. One detected Newcastle disease virus was classified as Class II genotype I and avirulent type according to F0 cleavage sites analysis. Three avian infectious bronchitis viruses were identified as 4/91, CK/CH/LSC/99I and TC07-2 genotypes by phylogenetic analysis of S1 genes. The viral infection surveillance method using metagenomics technology enables the monitoring of multiple viral infections, which allows the detection of main infectious viruses. [ABSTRACT FROM AUTHOR]

Published

2019

25. Comparison of the new fully automated extraction platform eMAG to the MagNA PURE 96 and the well-established easyMAG for detection of common human respiratory viruses.

Author

Hindiyeh, Musa, Mor, Orna, Pando, Rakefet, Mannasse, Batya, Kabat, Areej, Assraf-Zarfati, Hadar, Mendelson, Ella, Sofer, Danit, and Mandelboim, Michal

Subjects

*RESPIRATORY infections, *DIAGNOSTIC virology, *POLYMERASE chain reaction, *BIOLOGICAL assay, *CLINICAL trials

Abstract

Respiratory viral infections constitute the majority of samples tested in the clinical virology laboratory during the winter season, and are mainly diagnosed using molecular assays, namely real-time PCR (qPCR). Therefore, a high-quality extraction process is critical for successful, reliable and sensitive qPCR results. Here we aimed to evaluate the performance of the newly launched eMAG compared to the fully automated MagNA PURE 96 (Roche, Germany) and to the semi-automated easyMAG (bioMerieux, France) extraction platforms. For this analysis, we assessed and compared the analytic and clinical performance of the three platforms, using 262 archived respiratory samples positive or negative to common viruses regularly examined in our laboratory (influenza A, B, H1N1pdm, Respiratory Syncytial Virus (RSV), human Metapneumovirus (hMPV), parainfluenza-3, adenovirus and negative samples). In addition, quantitated virus controls were used to determine the limit of detection of each extraction method. In all categories tested, eMAG results were comparable to those of the easyMAG and MagNa PURE 96, highly sensitive for all viruses and over 98% clinical specificity and sensitivity for all viruses tested. Together with its high level of automation, the bioMerieux eMAG is a high-quality extraction platform enabling effective molecular analysis and is mostly suitable for medium-sized laboratories. [ABSTRACT FROM AUTHOR]

Published

2019

26. Boosting subdominant neutralizing antibody responses with a computationally designed epitope-focused immunogen.

Author

Sesterhenn, Fabian, Galloux, Marie, Vollers, Sabrina S., Csepregi, Lucia, Yang, Che, Descamps, Delphyne, Bonet, Jaume, Friedensohn, Simon, Gainza, Pablo, Corthésy, Patricia, Chen, Man, Rosset, Stéphane, Rameix-Welti, Marie-Anne, Éléouët, Jean-François, Reddy, Sai T., Graham, Barney S., Riffault, Sabine, and Correia, Bruno E.

Subjects

*EPITOPES, *PALIVIZUMAB, *IMMUNOGENETICS, *B cells, *VACCINES

Abstract

Throughout the last several decades, vaccination has been key to prevent and eradicate infectious diseases. However, many pathogens (e.g., respiratory syncytial virus [RSV], influenza, dengue, and others) have resisted vaccine development efforts, largely because of the failure to induce potent antibody responses targeting conserved epitopes. Deep profiling of human B cells often reveals potent neutralizing antibodies that emerge from natural infection, but these specificities are generally subdominant (i.e., are present in low titers). A major challenge for next-generation vaccines is to overcome established immunodominance hierarchies and focus antibody responses on crucial neutralization epitopes. Here, we show that a computationally designed epitope-focused immunogen presenting a single RSV neutralization epitope elicits superior epitope-specific responses compared to the viral fusion protein. In addition, the epitope-focused immunogen efficiently boosts antibodies targeting the palivizumab epitope, resulting in enhanced neutralization. Overall, we show that epitope-focused immunogens can boost subdominant neutralizing antibody responses in vivo and reshape established antibody hierarchies. [ABSTRACT FROM AUTHOR]

Published

2019

27. Characteristics of measles epidemics in China (1951-2004) and implications for elimination: A case study of three key locations.

Author

Yang, Wan, Li, Juan, and Shaman, Jeffrey

Subjects

*MEASLES, *EPIDEMICS, *INFECTIOUS disease transmission, *PUBLIC health, *EPIDEMIOLOGY

Abstract

Measles is a highly infectious, severe viral disease. The disease is targeted for global eradication; however, this result has proven challenging. In China, where countrywide vaccination coverage for the last decade has been above 95% (the threshold for measles elimination), measles continues to cause large epidemics. To diagnose factors contributing to the persistency of measles, here we develop a model-inference system to infer measles transmission dynamics in China. The model-inference system uses demographic and vaccination data for each year as model inputs to directly account for changing population dynamics (including births, deaths, migrations, and vaccination). In addition, it simultaneously estimates unobserved model variables and parameters based on incidence data. When fitted to yearly incidence data for the entire population, it is able to accurately estimate independent, out-of-sample age-specific incidence. Using this validated model-inference system, we are thus able to estimate epidemiological and demographical characteristics key to measles transmission during 1951–2004 for three key locations in China, including its capital Beijing. These characteristics include age-specific population susceptibility and incidence rates, the basic reproductive number (R0), reporting rate, population mixing intensity, and amplitude of seasonality. Key differences among the three sites reveal population and epidemiological characteristics crucial for understanding the current persistence of measles epidemics in China. We also discuss the implications our findings have for future elimination strategies. [ABSTRACT FROM AUTHOR]

Published

2019

28. Modeling the measles paradox reveals the importance of cellular immunity in regulating viral clearance.

Author

Morris, Sinead E., Yates, Andrew J., de Swart, Rik L., de Vries, Rory D., Mina, Michael J., Nelson, Ashley N., Lin, Wen-Hsuan W., Kouyos, Roger D., Griffin, Diane E., and Grenfell, Bryan T.

Subjects

*MEASLES virus, *CELLULAR immunity, *IMMUNOSUPPRESSION, *IMMUNE system, *CANINE distemper virus

Abstract

Measles virus (MV) is a highly contagious member of the Morbillivirus genus that remains a major cause of childhood mortality worldwide. Although infection induces a strong MV-specific immune response that clears viral load and confers lifelong immunity, transient immunosuppression can also occur, leaving the host vulnerable to colonization from secondary pathogens. This apparent contradiction of viral clearance in the face of immunosuppression underlies what is often referred to as the ‘measles paradox’, and remains poorly understood. To explore the mechanistic basis underlying the measles paradox, and identify key factors driving viral clearance, we return to a previously published dataset of MV infection in rhesus macaques. These data include virological and immunological information that enable us to fit a mathematical model describing how the virus interacts with the host immune system. In particular, our model incorporates target cell depletion through infection of host immune cells—a hallmark of MV pathology that has been neglected from previous models. We find the model captures the data well, and that both target cell depletion and immune activation are required to explain the overall dynamics. Furthermore, by simulating conditions of increased target cell availability and suppressed cellular immunity, we show that the latter causes greater increases in viral load and delays to MV clearance. Overall, this signals a more dominant role for cellular immunity in resolving acute MV infection. Interestingly, we find contrasting dynamics dominated by target cell depletion when viral fitness is increased. This may have wider implications for animal morbilliviruses, such as canine distemper virus (CDV), that cause fatal target cell depletion in their natural hosts. To our knowledge this work represents the first fully calibrated within-host model of MV dynamics and, more broadly, provides a new platform from which to explore the complex mechanisms underlying Morbillivirus infection. [ABSTRACT FROM AUTHOR]

Published

2018

29. Inverse relationship between serum vitamin D level and measles antibody titer: A cross-sectional analysis of NHANES, 2001-2004.

Author

Chen, Yi-Hsien, Wang, Wei-Ming, Kao, Tung-Wei, Chiang, Chien-Ping, Hung, Chih-Tsung, and Chen, Wei-Liang

Subjects

*MEASLES, *BLOOD serum analysis, *VITAMIN D, *ANTIBODY titer, *INVERSE relationships (Mathematics)

Abstract

Background: In recent years, researchers have illuminated many non-skeletal actions of vitamin D including host defense against various pathogens and vaccine immunology. The purpose of our study was to explore the potential association between serum vitamin D levels and measles antibody titers. Methods: The biochemical profiles and de-identified information were accessed from the 2001 to 2004 National Health and Nutrition Examination Survey (NHANES). Participants were divided into quartiles according to their measles antibody titers. Results: A total of 5,681 participants were analyzed in our study. Participants in the highest quartile of measles antibody titer had significantly lower serological levels of 25-hydroxyvitamin D [25(OH)D] than those in the lower quartiles (53.90 vs. 58.70 nmol/L, a decrease of 8.18%) (p < 0.001). After full adjustment of confounders, the adjusted ß coefficient of 25(OH)D was -0.006 (p<0.001). A decreasing tendency of 25(OH)D among quartiles of measles antibody titers was obvious (p for trend <0.001). The negative association in seropositive subjects remained statistically significant only in non-Hispanic black population before adjustment for age, gender, and other covariates (p<0.05). Conclusion: Our study highlights the negative association between serum 25(OH)D levels and measles antibody titers. [ABSTRACT FROM AUTHOR]

Published

2018

30. Importance of real-time RT-PCR to supplement the laboratory diagnosis in the measles elimination program in China.

Author

Cui, Aili, Mao, Naiying, Wang, Huiling, Xu, Songtao, Zhu, Zhen, Ji, Yixin, Ren, Li, Gao, Lingyu, Zhang, Yan, and Xu, Wenbo

Subjects

*MEASLES, *VIRAL disease diagnosis, *POLYMERASE chain reaction, *HEALTH programs, *ENZYME-linked immunosorbent assay

Abstract

In addition to high vaccination coverage, timely and accurate laboratory confirmation of measles cases is critical to interrupt measles transmission. To evaluate the role of real-time reverse transcription-polymerase chain reaction (RT-PCR) in the diagnosis of measles cases, 46,363 suspected measles cases with rash and 395 suspected measles cases without rash were analyzed in this study; the cases were obtained from the Chinese measles surveillance system (MSS) during 2014–2017 and simultaneously detected by measles-specific IgM enzyme-linked immunosorbent assay (ELISA) and real-time RT-PCR. However, some IgM-negative measles cases were identified by real-time RT-PCR. The proportion of these IgM-negative and viral nucleic acid-positive measles cases was high among measles cases with measles vaccination history, cases without rash symptoms, and cases within 3 days of specimen collection after onset. The proportion of IgM-negative and viral nucleic acid-positive measles cases in the 0–3 day group was up to 14.4% for measles cases with rash and 40% for measles cases without rash. Moreover, the proportions of IgM-negative and nucleic acid-positive measles cases gradually increased with the increase in the measles vaccination dose. Therefore, integrated with IgM ELISA, real-time RT-PCR would greatly improve the accurate diagnosis of measles cases and avoid missing the measles cases, especially for measles cases during the first few days after onset when the patients were highly contagious and for measles cases with secondary vaccine failure. In conclusion, our study reconfirmed that IgM ELISA is the gold-standard detection assay for measles cases confirmation. However, real-time RT-PCR should be introduced and used to supplement the laboratory diagnosis, especially in the setting of pre-elimination and/or elimination wherever appropriate. [ABSTRACT FROM AUTHOR]

Published

2018

31. Epidemiology of severe acute respiratory infections from hospital-based surveillance in Madagascar, November 2010 to July 2013.

Author

Razanajatovo, Norosoa Harline, Guillebaud, Julia, Harimanana, Aina, Rajatonirina, Soatiana, Ratsima, Elisoa Hariniaina, Andrianirina, Zo Zafitsara, Rakotoariniaina, Hervé, Andriatahina, Todisoa, Orelle, Arnaud, Ratovoson, Rila, Irinantenaina, Judickaelle, Rakotonanahary, Dina Arinalina, Ramparany, Lovasoa, Randrianirina, Frédérique, Richard, Vincent, and Heraud, Jean-Michel

Subjects

*RESPIRATORY infections, *ADENOVIRUSES, *BACTERIAL diseases, *RESPIRATORY syncytial virus infections, *HOSPITAL care

Abstract

Background: Few comprehensive data exist regarding the epidemiology of severe acute respiratory infections (SARI) in low income countries. This study aimed at identifying etiologies and describing clinical features of SARI-associated hospitalization in Madagascar. Methods: It is a prospective surveillance of SARI in 2 hospitals for 3 years. Nasopharyngeal swabs, sputum, and blood were collected from SARI patients enrolled and tested for viruses and bacteria. Epidemiological and clinical information were obtained from case report forms. Results: Overall, 876 patients were enrolled in the study, of which 83.1% (728/876) were tested positive for at least one pathogen. Viral and bacterial infections occurred in 76.1% (667/876) and 35.8% (314/876) of tested samples, respectively. Among all detected viruses, respiratory syncytial virus (RSV) was the most common (37.7%; 348/924) followed by influenza virus A (FLUA, 18.4%; 170/924), rhinovirus (RV, 13.5%; 125/924), and adenovirus (ADV, 8.3%; 77/924). Among bacteria, Streptococcus pneumoniae (S. pneumoniae, 50.3%, 189/370) was the most detected followed by Haemophilus influenzae type b (Hib, 21.4%; 79/370), and Klebsiella (4.6%; 17/370). Other Streptococcus species were found in 8.1% (30/370) of samples. Compared to patients aged less than 5 years, older age groups were significantly less infected with RSV. On the other hand, patients aged more than 64 years (OR = 3.66) were at higher risk to be infected with FLUA, while those aged 15–29 years (OR = 3.22) and 30–64 years (OR = 2.39) were more likely to be infected with FLUB (influenza virus B). Conclusion: The frequency of influenza viruses detected among SARI patients aged 65 years and more highlights the need for health authorities to develop strategies to reduce morbidity amongst at-risk population through vaccine recommendation. Amongst young children, the demonstrated burden of RSV should guide clinicians for a better case management of children. These findings reveal the need to develop point-of-care tests to avoid overuse of antibiotics and to promote vaccine that could reduce drastically the RSV hospitalizations. [ABSTRACT FROM AUTHOR]

Published

2018

32. Respiratory syncytial virus hospitalization in children in northern Spain.

Author

Viguria, Natividad, Martínez-Baz, Iván, Moreno-Galarraga, Laura, Sierrasesúmaga, Luis, Salcedo, Blanca, and Castilla, Jesús

Subjects

*RESPIRATORY syncytial virus, *RESPIRATORY syncytial virus infection vaccines, *MEDICAL care, *INTENSIVE care units, *HOSPITAL admission & discharge

Abstract

Objectives: Understanding respiratory syncytial virus (RSV) morbidity may help to plan health care and future vaccine recommendations. We aim to describe the characteristics and temporal distribution of children diagnosed with RSV admitted in a Spanish hospital. Methods: Descriptive study for which the hospital discharges of children < 5 years of age with RSV infection were analyzed. The information was extracted from the hospital discharge database of a reference pediatric hospital in northern Spain for the 2010–2011 to 2014–2015 RSV seasons. Results: Six hundred and forty-seven hospitalizations of children with RSV infection were analyzed, 94% of which occurred between the second week of November and the last week of March. Most children (72%) were under one year of age and 95% were previously healthy infants. Infants born from October to December had the highest risk of hospitalization in the first year of life. The median length of hospital stay of children with and without comorbidities was six and three days, respectively. 6.5% of the hospitalized cases were admitted to the pediatric intensive care unit; this percentage was higher among children < 2 months (adjusted odds ratio 4.15; 95% confidence interval: 1.37–12.61) or with comorbidities (adjusted odds ratio 4.15; 95% confidence interval: 1.53–11.28). The case lethality was 0.3%. Conclusions: The risk of hospitalizations for RSV is high during the first year of life and increases among infants born in the fall. Being under two months of age and presenting comorbidities are the main risk factors associated to pediatric intensive care unit admission. [ABSTRACT FROM AUTHOR]

Published

2018

33. Transmissibility of emerging viral zoonoses.

Author

Walker, Joseph W., Han, Barbara A., Ott, Isabel M., and Drake, John M.

Subjects

*ZOONOSES, *PUBLIC health research, *VIRAL transmission, *PUBLIC health surveillance, *PREDICTION models

Abstract

Effective public health research and preparedness requires an accurate understanding of which virus species possess or are at risk of developing human transmissibility. Unfortunately, our ability to identify these viruses is limited by gaps in disease surveillance and an incomplete understanding of the process of viral adaptation. By fitting boosted regression trees to data on 224 human viruses and their associated traits, we developed a model that predicts the human transmission ability of zoonotic viruses with over 84% accuracy. This model identifies several viruses that may have an undocumented capacity for transmission between humans. Viral traits that predicted human transmissibility included infection of nonhuman primates, the absence of a lipid envelope, and detection in the human nervous system and respiratory tract. This predictive model can be used to prioritize high-risk viruses for future research and surveillance, and could inform an integrated early warning system for emerging infectious diseases. [ABSTRACT FROM AUTHOR]

Published

2018

34. Population-based trends and underlying risk factors for infant respiratory syncytial virus and bronchiolitis hospitalizations.

Author

Bennett, Mihoko V., McLaurin, Kimmie, Ambrose, Christopher, and Lee, Henry C.

Subjects

*RESPIRATORY syncytial virus infections, *BRONCHIOLITIS, *HOSPITAL care, *INFANT diseases, *HEALTH facilities, *RETROSPECTIVE studies

Abstract

Objective: Respiratory syncytial virus (RSV) is a common pathogen during infancy, with the potential to cause serious disease and mortality in high-risk groups. The objective of this study was to characterize trends of RSV and bronchiolitis hospitalizations in the first year in a population-based cohort and assess differences in trends according to risk status. Methods: Using an observational retrospective cohort design, we examined a California population-based dataset of vital statistics linked to hospital discharge data for up to 1 year after birth from 1997–2011. Infants were categorized by medical condition and then by gestational age. Medical conditions of interest included chronic lung disease, certain congenital heart diseases, or others known to affect risk for developing severe bronchiolitis. The primary outcome was hospitalization due to RSV; secondary outcome was hospitalization for unspecified bronchiolitis (UB) not coded as RSV. Annual person-year rates were calculated for infants <12 months of age during January to December of each year. Results: Of 7,298,401 infants born during the study period, 121,230 (1.7%) had a medical condition associated with risk; these infants experienced 6853 RSV and 6568 UB hospitalizations in the first year. In infants without medical conditions, 96,694 RSV and 69,886 UB hospitalizations occurred. All-cause infant hospitalizations declined over time from 12.2 to 9.3 per 100 person-years. RSV hospitalization rates for infants with medical conditions decreased from 7.6 to 3.4 per 100 person-years, with the largest relative decline in infants with chronic lung disease (12.0 to 5.0 per 100 person-years). For infants without medical conditions, RSV hospitalizations declined from 1.4 to 0.8 per 100 person-years, with greater decreases among preterm infants with earlier gestational age. UB hospitalization rates remained relatively stable across the study years, from 6.2 to 5.4 and 1.0 to 0.8 per 100 person-years for infants with and without medical conditions. Conclusions: Various interventions may have contributed to observed decreases in RSV hospitalizations from 1998–2011, which were greater in high-risk populations recommended for RSV immunoprophylaxis and not observed with UB. Further efforts to promote evidence-based practice and optimal targeting of appropriate interventions will ensure continued improvement in care for vulnerable infants. [ABSTRACT FROM AUTHOR]

Published

2018

35. Rapid capture and detection of ostreid herpesvirus-1 from Pacific oyster Crassostrea gigas and seawater using magnetic beads.

Author

Toldrà, Anna, Andree, Karl B., Bertomeu, Edgar, Roque, Ana, Carrasco, Noèlia, Gairín, Ignasi, Furones, M. Dolores, and Campàs, Mònica

Subjects

*HERPESVIRUS diseases, *OYSTERS, *ADDITION polymerization, *PACIFIC oysters, *REVERSE transcriptase polymerase chain reaction, *SEAWATER

Abstract

Ostreid herpesvirus-1 (OsHV-1) has been involved in mass mortality episodes of Pacific oysters Crassostrea gigas throughout the world, causing important economic losses to the aquaculture industry. In the present study, magnetic beads (MBs) coated with an anionic polymer were used to capture viable OsHV-1 from two types of naturally infected matrix: oyster homogenate and seawater. Adsorption of the virus on the MBs and characterisation of the MB-virus conjugates was demonstrated by real-time quantitative PCR (qPCR). To study the infective capacity of the captured virus, MB-virus conjugates were injected in the adductor muscle of naïve spat oysters, using oyster homogenate and seawater without MBs as positive controls, and bare MBs and sterile water as negative controls. Mortalities were induced after injection with MB-virus conjugates and in positive controls, whereas no mortalities were recorded in negative controls. Subsequent OsHV-1 DNA and RNA analysis of the oysters by qPCR and reverse transcription qPCR (RT-qPCR), respectively, confirmed that the virus was the responsible for the mortality event and the ability of the MBs to capture viable viral particles. The capture of viable OsHV-1 using MBs is a rapid and easy isolation method and a promising tool, combined with qPCR, to be applied to OsHV-1 detection in aquaculture facilities. [ABSTRACT FROM AUTHOR]

Published

2018

36. Burden of exposure to infectious bursal disease virus, infectious bronchitis virus, Newcastle disease virus, Mycoplasma gallisepticum, and intestinal parasites in introduced broiler chickens on the Galapagos.

Author

Whitehead, Ashley B. R., Butcher, Gary D., Walden, Heather S., Duque, Viviana, Cruz, Marilyn, and Hernandez, Jorge A.

Subjects

*BRONCHITIS, *MYCOPLASMA gallisepticum, *BROILER chicken diseases, *INFECTIOUS disease transmission, *ENZYME-linked immunosorbent assay, *DISEASE risk factors

Abstract

Diseases in introduced broilers can possibly spill over to wild birds on the Galapagos. Knowledge about the current burden of exposure to pathogens in broilers on the Galapagos is very limited. The objective of the study reported here was to measure the burden of exposure to infectious bursal disease virus (IBDV), infectious bronchitis virus (IBV), Newcastle disease virus (NDV), Mycoplasma gallisepticum (MG), and intestinal parasites in a sample of broiler chickens on 13 farms on Santa Cruz Island and San Cristobal Island in July 2017. Blood serum samples were tested for detection of antibodies to IBDV, IBV, NDV, and MG by using an IDEXX Enzyme-linked Immunosorbent Assay. In addition, fecal samples and pen bedding environmental samples were processed and analyzed for diagnosis of intestinal parasite eggs under a compound light microscope. The frequency of seropositive broilers to IBDV was 74/130 or 56% (95% CI = 48, 65%), to IBV was 27/130 or 20% (14, 28%), and to NDV was 1/130 or 0.7% (0.1, 4%). All broilers tested negative to MG antibodies. Eimeria spp. infection was common in study broilers. Finally, we observed interaction between broiler chickens and wild birds (finches) inside broiler pens, as well as the presence of backyard chickens inside property limits of study farms. This study produced evidence that exposure to IBDV, IBV, and intestinal parasites in broilers on Santa Cruz Island and San Cristobal Island is important. Study results are relevant because (i) they provide new baseline data on the burden of exposure to avian pathogens in broiler farms, (ii) justify the need to verify standard operating procedures in hatcheries that supply (non-vaccinated) day-old chicks to the Galapagos and (iii) to implement enhanced biosecurity standards on broiler chicken farms to mitigate risk of disease transmission between broilers, backyard poultry, and wild birds on the Galapagos. [ABSTRACT FROM AUTHOR]

Published

2018

37. Viral etiology of acute respiratory infections in hospitalized children in Novosibirsk City, Russia (2013 – 2017).

Author

Kurskaya, Olga, Ryabichenko, Tatyana, Leonova, Natalya, Shi, Weifeng, Bi, Hongtao, Sharshov, Kirill, Kazachkova, Eugenia, Sobolev, Ivan, Prokopyeva, Elena, Kartseva, Tatiana, Alekseev, Alexander, and Shestopalov, Alexander

Subjects

*RESPIRATORY infections in children, *CHILD mortality, *VIRUS diseases, *CHILDREN, *INFLUENZA transmission, *REVERSE transcriptase polymerase chain reaction, *DIAGNOSIS

Abstract

Background: Acute respiratory infections (ARIs) cause a considerable morbidity and mortality worldwide especially in children. However, there are few studies of the etiological structure of ARIs in Russia. In this work, we analyzed the etiology of ARIs in children (0–15 years old) admitted to Novosibirsk Children’s Municipal Clinical Hospital in 2013–2017. Methods: We tested nasal and throat swabs of 1560 children with upper or lower respiratory infection for main respiratory viruses (influenza viruses A and B, parainfluenza virus types 1–4, respiratory syncytial virus, metapneumovirus, four human coronaviruses, rhinovirus, adenovirus and bocavirus) using a RT-PCR Kit. Results: We detected 1128 (72.3%) samples were positive for at least one virus. The most frequently detected pathogens were respiratory syncytial virus (358/1560, 23.0%), influenza virus (344/1560, 22.1%), and rhinovirus (235/1560, 15.1%). Viral co-infections were found in 163 out of the 1128 (14.5%) positive samples. We detected significant decrease of the respiratory syncytial virus-infection incidence in children with increasing age, while the reverse relationship was observed for influenza viruses. Conclusions: We evaluated the distribution of respiratory viruses in children with ARIs and showed the prevalence of respiratory syncytial virus and influenza virus in the etiological structure of infections. This study is important for the improvement and optimization of diagnostic tactics, control and prevention of the respiratory viral infections. [ABSTRACT FROM AUTHOR]

Published

2018

38. Surveillance for respiratory syncytial virus and parainfluenza virus among patients hospitalized with pneumonia in Sarawak, Malaysia.

Author

Fieldhouse, Jane K., Toh, Teck-Hock, Lim, Wei-Honn, Ting, Jakie, Ha, Siaw-Jing, Hii, King-Ching, Kong, Cheng-Ing, Wong, Toh-Mee, Wong, See-Chang, Warkentien, Tyler E., and Gray, Gregory C.

Subjects

*PARAINFLUENZA viruses, *PNEUMONIA, *HOSPITAL care, *PATIENT acceptance of health care, *POLYMERASE chain reaction, *PATIENTS

Abstract

Background: Respiratory syncytial virus (RSV) and parainfluenza virus (PIV) are frequent causes of pneumonia and death among children at Sibu and Kapit Hospitals in Sarawak, Malaysia. Objectives: To determine the prevalence and risk factors for RSV subtypes A and B and PIV types 1–4 among patients hospitalized with pneumonia. Methods: In a cross-sectional, pilot study nasopharyngeal swabs were studied with real-time reverse transcription polymerase chain reaction assays. Concurrently, we helped Sibu and Kapit Hospitals adapt their first molecular diagnostics for RSV and PIV. Results: Of 129 specimens collected (June to July 2017), 39 tested positive for RSV-A (30.2%), two were positive for RSV B (1.6%), one was positive for PIV-3 (0.8%) and one was positive for PIV-4 (0.8%). No samples were positive for PIV-1 or PIV-2. Of the 39 RSV-A positive specimens, 46.2% were collected from children under one year of age and only 5.1% were from patients over the age of 18. A multivariable analysis found the odds of children <1 year of age testing positive for RSV-A were 32.7 (95% CI: 3.9, 276.2) times larger than >18 years of age, and the odds of patients hospitalized at Kapit Hospital testing positive for RSV-A were 3.2 (95% CI: 1.3, 7.8) times larger than patients hospitalized at Sibu Hospital. Conclusion: This study found an unusually high prevalence of RSV-A among pneumonia patients admitted to the two hospitals. Subsequently, Sibu Hospital adapted the molecular assays with the goal of providing more directed care for such pneumonia patients. [ABSTRACT FROM AUTHOR]

Published

2018

39. Modelling spatio-temporal patterns of disease for spatially misaligned data: An application on measles incidence data in Namibia from 2005-2014.

Author

Ntirampeba, D., Neema, I., and Kazembe, L.

Subjects

*MEASLES, *SOCIAL services, *MEASUREMENT errors, *PUBLIC health, *SPATIOTEMPORAL processes

Abstract

Background: Making inferences about measles distribution patterns at small area level is vital for more focal targeted intervention. However, in statistical literature, the analysis of originally collected data on one resolution with the purpose to make inferences on a different level of spatial resolution is referred to as the misalignment problem. In Namibia the measles data were available in aggregated format at regional level for the period 2005 to 2014. This leads to a spatial misalignment problem if the purpose is to make decisions at constituency level. Moreover, although data on risk covariates of measles could be obtained at constituency level, they were not available each year between 2005 and 2014. Thus, assuming that covariates were constant through the study period would induce measurement errors which might have effects on the analysis results. This paper presents a spatio-temporal model through a multi-step approach in order to deal with misalignment and measurement error. Methods: For the period 2005–2014, measles data from the Ministry of Health and Social Services (MoHSS) were analysed in two steps. First, a multi-step approach was applied to correct spatial misalignment in the data. Second, a classical measurement error model was fitted to account for measurement errors. The time effects were specified using a nonparametric formulation for the linear trend through first order random walk. An interaction between area and time was modelled through type I and type II interaction structures. Results: The study showed that there was high variation in measles risk across constituencies and as well as over the study period (2005–2014). Furthermore, the risk of measles was found to be associated with (i) the number of people aged between 0 and 24 years, (ii) the percentages of women aged 15–49 with an educational level more than secondary, (iii) the percentages of children age 12–23 months who received measles vaccine, (iv) the percentages of malnourished children under 5 years, and (vi) the measles cases for each previous year. Conclusion: The study showed some of the determinants of measles risk and revealed areas at high risk through disease mapping. Additionally, the study showed a non-linear temporal distribution of measles risk over the study period. Finally, it was shown that ignoring the measurement errors may yield misleading results. It was recommended that group and geographically targeted intervention, prevention and control strategies can be tailored on the basis these findings. [ABSTRACT FROM AUTHOR]

Published

2018

40. Heterogeneity and longevity of antibody memory to viruses and vaccines.

Author

Antia, Alice, Ahmed, Hasan, Handel, Andreas, Carlson, Nichole E., Amanna, Ian J., Antia, Rustom, and Slifka, Mark

Subjects

*IMMUNOLOGIC memory, *VIRUSES, *VACCINES, *HETEROGENEITY, *ANTIGENS

Abstract

Determining the duration of protective immunity requires quantifying the magnitude and rate of loss of antibodies to different virus and vaccine antigens. A key complication is heterogeneity in both the magnitude and decay rate of responses of different individuals to a given vaccine, as well as of a given individual to different vaccines. We analyzed longitudinal data on antibody titers in 45 individuals to characterize the extent of this heterogeneity and used models to determine how it affected the longevity of protective immunity to measles, rubella, vaccinia, tetanus, and diphtheria. Our analysis showed that the magnitude of responses in different individuals varied between 12- and 200-fold (95% coverage) depending on the antigen. Heterogeneity in the magnitude and decay rate contribute comparably to variation in the longevity of protective immunity between different individuals. We found that some individuals have, on average, slightly longer-lasting memory than others—on average, they have higher antibody levels with slower decay rates. We identified different patterns for the loss of protective levels of antibodies to different vaccine and virus antigens. Specifically, we found that for the first 25 to 50 years, virtually all individuals have protective antibody titers against diphtheria and tetanus, respectively, but about 10% of the population subsequently lose protective immunity per decade. In contrast, at the outset, not all individuals had protective titers against measles, rubella, and vaccinia. However, these antibody titers wane much more slowly, with a loss of protective immunity in only 1% to 3% of the population per decade. Our results highlight the importance of long-term longitudinal studies for estimating the duration of protective immunity and suggest both how vaccines might be improved and how boosting schedules might be reevaluated. [ABSTRACT FROM AUTHOR]

Published

2018

41. Matching diagnostics development to clinical need: Target product profile development for a point of care test for community-acquired lower respiratory tract infection.

Author

Gal, Micaela, Francis, Nicholas A., Hood, Kerenza, Villacian, Jorge, Goossens, Herman, Watkins, Angela, Butler, Christopher C., and null, null

Subjects

*RESPIRATORY infections, *POINT-of-care testing, *COMMUNITY-acquired infections, *COMMUNITY-acquired pneumonia, *PRIMARY care

Abstract

Background: Point of care tests (POCTs) are increasingly being promoted for guiding the primary medical care of community acquired lower respiratory tract infections (CA-LRTI). POCT development has seldom been guided by explicitly identified clinical need and requirements of the intended users. Approaches for identifying POCT priorities and developing target product profiles (TPPs) for POCTs in primary medical care are not well developed, and there is no published TPP for a CA-LRTI POCT aimed at developed countries. Methods: We conducted workshops with expert stakeholders and a survey with primary care clinicians to produce a target product profile (TPP) to guide the development of a clinically relevant and technologically feasible POCT for CA-LRTI. Results: Participants with clinical, academic, industrial, technological and basic scientific backgrounds contributed to four expert workshops, and 45 practicing primary care clinicians responded to an online survey and prioritised community-acquired pneumonia (CAP) as the CA-LRTI where a new POCT was most urgently needed. Consensus was reached on a TPP document that included information on the intended niche in the clinical pathway in primary medical care; diagnostic product specification (intended use statement and test concept), and minimum and ideal user specifications. Clinicians minimum requirements of a CA-LRTI POCT included the use of minimally invasive samples, a result in less than 30 minutes, no more than a single preparation step, minimum operational requirements, and detection of common respiratory pathogens and their resistance to commonly prescribed antibiotics. Conclusions: This multidisciplinary, multistage partnership approach generated a clinically-driven TPP for guiding the development of a new POCT, and this approach as well as the TPP itself may be useful to others developing a new POCT. [ABSTRACT FROM AUTHOR]

Published

2018

42. Transmission of rhinovirus in the Utah BIG-LoVE families: Consequences of age and household structure.

Author

Adler, Frederick R., Stockmann, Chris, Ampofo, Krow, Pavia, Andrew T., and Byington, Carrie L.

Subjects

*COMMON cold, *DISEASE prevalence, *RNA viruses, *RESPIRATORY infections, *POLYMERASE chain reaction, *INFECTIOUS disease transmission

Abstract

Background: Common cold viruses create significant health and financial burdens, and understanding key loci of transmission would help focus control strategies. This study (1) examines factors that influence when individuals transition from a negative to positive test (acquisition) or a positive to negative test (loss) of rhinovirus (HRV) and other respiratory tract viruses in 26 households followed weekly for one year, (2) investigates evidence for intrahousehold and interhousehold transmission and the characteristics of individuals implicated in transmission, and (3) builds data-based simulation models to identify factors that most strongly affect patterns of prevalence. Methods: We detected HRV, coronavirus, paramyxovirus, influenza and bocavirus with the FilmArray polymerase chain reaction (PCR) platform (BioFire Diagnostics, LLC). We used logistic regression to find covariates affecting acquisition or loss of HRV including demographic characteristics of individuals, their household, their current infection status, and prevalence within their household and across the population. We apply generalized linear mixed models to test robustness of results. Results: Acquisition of HRV was less probable in older individuals and those infected with a coronavirus, and higher with a higher proportion of other household members infected. Loss of HRV is reduced with a higher proportion of other household members infected. Within households, only children and symptomatic individuals show evidence for transmission, while between households only a higher number of infected older children (ages 5-19) increases the probability of acquisition. Coronaviruses, paramyxoviruses and bocavirus also show evidence of intrahousehold transmission. Simulations show that age-dependent susceptibility and transmission have the largest effects on mean HRV prevalence. Conclusions: Children are most likely to acquire and most likely to transmit HRV both within and between households, with infectiousness concentrated in symptomatic children. Simulations predict that the spread of HRV and other respiratory tract viruses can be reduced but not eliminated by practices within the home. [ABSTRACT FROM AUTHOR]

Published

2018

43. Phylogenetic analysis of canine distemper virus in South African wildlife.

Author

Loots, Angelika K., Mokgokong, Prudent S., Mitchell, Emily, Venter, Estelle H., Kotze, Antoinette, and Dalton, Desiré Lee

Subjects

*CANINE distemper virus, *DOG diseases, *ANIMALS, *NECTINS, *GENOTYPES

Abstract

Canine distemper virus (CDV) causes a severe contagious disease in a broad range of hosts. This is the first study to genetically characterise CDV strains from four different wildlife species in South Africa. The phylogenetic diversity of CDV is examined, using the haemagglutinin gene. The South African wildlife CDV isolates showed a high degree of similarity to CDV in South African domestic dogs. Phylogenetic analyses confirmed the presence of 12 geographical lineages with CDV strains from South African wildlife falling within the Southern African lineage. The study reveals two possible co-circulating sub-genotypes corresponding to the northern and southern regions of South Africa respectively. CDV strains from the non-canid species were distinct, but similar to CDV isolates from domestic dog and wild canids. Residues at amino acid sites of the SLAM binding region support the notion that CDV strains encoding 519I / 549H are better adapted to non-canid species than canid species. The amino acids present at site 530 are conserved regardless of host species. Strains from South African wild carnivores showed no difference between host species with all strains presenting 530N. All non-canid strains in this study presented the combination 519I/549H. No evidence of host adaptation or lineage grouping was observed for the Nectin-4 binding region. Further studies should include CDV strains isolated from various hosts from a wider geographical range in South Africa. [ABSTRACT FROM AUTHOR]

Published

2018

44. Measles virus genotype D4 strains with non-standard length M-F non-coding region circulated during the major outbreaks of 2011-2012 in Spain.

Author

Gil, Horacio, Fernández-García, Aurora, Mosquera, María Mar, Hübschen, Judith M., Castellanos, Ana M., de Ory, Fernando, Masa-Calles, Josefa, and Echevarría, Juan E.

Subjects

*EPIDEMIOLOGY, *MEASLES, *VIRUS diseases, *DISEASE outbreaks, *GENOTYPES

Abstract

In recent decades, vaccination has substantially reduced the number of measles cases to levels close to the elimination stage. However, major measles outbreaks occurred in Europe during 2010–2012, after the introduction of the D4-Enfield lineage. We have performed a molecular characterization of 75 measles virus genotype D4 strains from patients infected in Spain between 2004 and 2012 by sequencing the N-450 region and the M-F non-coding region (M-F NCR) in order to identify genetic features of these viruses. The analysis of the N-450 region confirmed that all samples obtained since 2008 belonged to variants or sets of identical sequences of the D4-Enfield lineage, including a new one named MVs/Madrid.ESP/46.10/. Analysis of the M-F NCR showed insertions and deletions associated with previously described, uncommon non-standard genome length measles viruses. This genetic feature was identified in the D4-Enfield lineage viruses, but not in the other D4 viruses that were circulating in Spain before 2008, suggesting that these non-standard length M-F NCR sequences are characteristic of the D4-Enfield lineage. The results of the phylogenetic analysis of Spanish M-F NCRs suggest higher resolution in discriminating strains than did the N-450 analysis. In addition, the results of the analysis of the M-F NCR on the MVs/Madrid.ESP/46.10/ sub-lineage seem to support the potential utility of this region as a tool for epidemiological surveillance complementary to the N-450 region, as previously suggested. Further investigation on this question, as well as the surveillance of new potentially emerging strains with non-standard length M-F NCR are strongly recommended as part of future strategies for measles elimination. [ABSTRACT FROM AUTHOR]

Published

2018

45. Genetic and biological characterization of H9N2 avian influenza viruses isolated in China from 2011 to 2014.

Author

Zhu, Rui, Xu, Danwen, Yang, Xueqin, Zhang, Jianjun, Wang, Shifeng, Shi, Huoying, and Liu, Xiufan

Subjects

*AVIAN influenza, *VIRAL genetics, *VIRUS phylogeny, *BIOLOGICAL evolution

Abstract

The genotypes of the H9N2 avian influenza viruses have changed since 2013 when almost all H9N2 viruses circulating in chickens in China were genotype 57 (G57) with the fittest lineage of each gene. To characterize the H9N2 variant viruses from 2011 to 2014, 28 H9N2 influenza viruses were isolated from live poultry markets in China from 2011–2014 and were analyzed by genetic and biological characterization. Our findings showed that 16 residues that changed antigenicity, two potential N-linked glycosylation sites, and one amino acid in the receptor binding site of the HA protein changed significantly from 2011–2014. Moreover, the HA and NA genes in the phylogenetic tree were mainly clustered into two independent branches, A and B, based on the year of isolation. H9N2 virus internal genes were related to those from the human-infected avian influenza viruses H5N1, H7N9, and H10N8. In particular, the NS gene in the phylogenetic tree revealed genetic divergence of the virus gene into three branches labeled A, B, and C, which were related to the H9N2, H10N8, and H7N9 viruses, respectively. Additionally, the isolates also showed varying levels of infection and airborne transmission. These results indicated that the H9N2 virus had undergone an adaptive evolution and variation from 2011–2014. [ABSTRACT FROM AUTHOR]

Published

2018

46. Direct cell-to-cell transmission of respiratory viruses: The fast lanes.

Author

Cifuentes-Muñoz, Nicolás, Dutch, Rebecca Ellis, and Cattaneo, Roberto

Subjects

*RNA viruses, *VIRUS diseases, *CELL membranes, *MICROBIAL virulence, *MICROORGANISMS

Abstract

The article discusses how virus particles save genomes from hostile environments within and outside the host. It notes that direct cell-to-cell spread of infections has several benefits, including efficiency, speed, and barrier avoidance. It adds that respiratory viruses include a large group of pathogens that spans different viral families.

Published

2018

47. An Eigenspace approach for detecting multiple space-time disease clusters: Application to measles hotspots detection in Khyber-Pakhtunkhwa, Pakistan.

Author

Ullah, Sami, Daud, Hanita, Dass, Sarat C., Fanaee-T, Hadi, and Khalil, Alamgir

Subjects

*MEASLES, *SPATIOTEMPORAL processes, *VIRUS diseases, *COMMUNICABLE diseases, *ALGORITHMS

Abstract

Identifying the abnormally high-risk regions in a spatiotemporal space that contains an unexpected disease count is helpful to conduct surveillance and implement control strategies. The EigenSpot algorithm has been recently proposed for detecting space-time disease clusters of arbitrary shapes with no restriction on the distribution and quality of the data, and has shown some promising advantages over the state-of-the-art methods. However, the main problem with the EigenSpot method is that it cannot be adapted to detect more than one spatiotemporal hotspot. This is an important limitation, since, in reality, we may have multiple hotspots, sometimes at the same level of importance. We propose an extension of the EigenSpot algorithm, called Multi-EigenSpot that is able to handle multiple hotspots by iteratively removing previously detected hotspots and re-running the algorithm until no more hotspots are found. In addition, a visualization tool (heatmap) has been linked to the proposed algorithm to visualize multiple clusters with different colors. We evaluated the proposed method using the monthly data on measles cases in Khyber-Pakhtunkhwa, Pakistan (Jan 2016- Dec 2016), and the efficiency was compared with the state-of-the-art methods: EigenSpot and Space-time scan statistic (SaTScan). The results showed the effectiveness of the proposed method for detecting multiple clusters in a spatiotemporal space. [ABSTRACT FROM AUTHOR]

Published

2018

48. Respiratory virus of severe pneumonia in South Korea: Prevalence and clinical implications.

Author

Kim, Hyung-Jun, Choi, Sun Mi, Lee, Jinwoo, Park, Young Sik, Lee, Chang-Hoon, Yim, Jae-Joon, Yoo, Chul-Gyu, Kim, Young Whan, Han, Sung Koo, and Lee, Sang-Min

Subjects

*VIRAL pneumonia, *DISEASE prevalence, *INTENSIVE care units, RESPIRATORY organ microbiology

Abstract

Background: Severe viral pneumonia is associated with a high mortality rate. However, due to the vulnerability of critically ill patients, invasive diagnostic methods should be performed with caution in the intensive care unit (ICU). It would be helpful if the prevalence, risk factors, and clinical impact of virus detection are elucidated. Methods: We evaluated patients with severe pneumonia between January 1st 2008 and December 31st 2015. Reverse transcription-polymerase chain reaction (RT-PCR) analysis was performed for 8 respiratory viruses when viral pathogen could not be excluded as the origin of severe pneumonia. The baseline characteristics, laboratory results, microbiological findings, and clinical outcomes of the patients were analyzed. Results: Of the 2,347 patients admitted to the medical ICU, 515 underwent RT-PCR for respiratory viruses, 69 of whom had positive results. The detection rate was higher during the winter, with a community onset, in patients with history of recent chemotherapy, and low platelet count. Additional bronchoscopic sampling along with upper respiratory specimen increased the yield of viral detection. Respiratory syncytial virus was the most common pathogen detected, while influenza A was the most common virus with bacterial coinfection. Respiratory virus detection led to changes in clinical management in one-third of the patients. Conclusions: The detection of viral pathogens in patients with severe pneumonia is not rare, and can be more common in certain group of patients. Invasive sampling for RT-PCR can be helpful, and such detection can lead to positive changes in clinical management. [ABSTRACT FROM AUTHOR]

Published

2018

49. Persistent high plasma levels of sCD163 and sCD14 in adult patients with measles virus infection.

Author

Mascia, Claudia, Pozzetto, Irene, Kertusha, Blerta, Marocco, Raffaella, Del Borgo, Cosmo, Tieghi, Tiziana, Vita, Serena, Savinelli, Stefano, Iannetta, Marco, Vullo, Vincenzo, Lichtner, Miriam, and Mastroianni, Claudio Maria

Subjects

*MEASLES virus, *PUBLIC health, *DISEASE susceptibility, *NEUTROPHILS, *LYMPHOCYTES

Abstract

Background and aims: Measles is an infectious disease that represents a serious public health problem worldwide, being associated with increased susceptibility to secondary infections, especially in the respiratory and gastrointestinal tracts. The aim of this study was to evaluate sCD163 and sCD14 levels in measles virus (MV) infected patients, as markers of immune activation, in order to better understand their role in the pathogenesis of the disease. TNF-α plasma levels were also evaluated. Methods: sCD163, sCD14 and TNF-α were measured by ELISA in plasma samples of 27 MV infected patients and 27 healthy donors (HD) included as controls. Results: At the time of hospital admission, sCD163 and sCD14 levels were significantly higher in MV infected patients than in HD, while a decrease in TNF-α levels were found even if without statistical significance. sCD163 and sCD14 levels were significantly decreased after two months from acute infection compared to hospital admission although they remained significantly higher compared to HD. TNF-α levels increased significantly during the follow-up period. Considering clinical parameters, sCD163 levels positively correlated with aspartate aminotransferase, white blood cell count and neutrophils rate, while negatively correlated with the lymphocyte percentage. sCD14 levels positively correlated with the neutrophil and lymphocyte percentages. Conclusions: These results indicate that, despite the resolution of symptoms, an important macrophage/monocyte activation persists in measles patients, even after two months from infection. [ABSTRACT FROM AUTHOR]

Published

2018

50. Effect of fusion protein cleavage site sequence on generation of a genotype VII Newcastle disease virus vaccine.

Author

Manoharan, Vinoth K., Varghese, Berin P., Paldurai, Anandan, and Samal, Siba K.

Subjects

*NEWCASTLE disease vaccines, *CHIMERIC proteins, *MUTAGENESIS, *GENOTYPES

Abstract

Newcastle disease (ND) causes severe economic loss to poultry industry worldwide. Frequent outbreaks of ND in commercial chickens vaccinated with live vaccines suggest a need to develop improved vaccines that are genetically matched against circulating Newcastle disease virus (NDV) strains. In this study, the fusion protein cleavage site (FPCS) sequence of NDV strain Banjarmasin/010 (Banj), a genotype VII NDV, was individually modified using primer mutagenesis to those of avian paramyxovirus (APMV) serotypes 2, 7 and 8 and compared with the recombinant Banjarmasin (rBanj) with avirulent NDV LaSota cleavage site (rBanj-LaSota). These FPCS mutations changed the in vitro cell-to-cell fusion activity and made rBanj FPCS mutant viruses highly attenuated in chickens. When chickens immunized with the rBanj FPCS mutant viruses and challenged with the virulent Banj, there was reduced challenge virus shedding observed compared to chickens immunized with the heterologous vaccine strain LaSota. Among the genotype VII NDV Banj vaccine candidates, rBanj-LaSota and rBanj containing FPCS of APMV-8 induced highest neutralizing antibody titers and protected chickens with reduced challenge virus shedding. These results show the effect of the F protein cleavage site sequence in generating genotype VII matched NDV vaccines. [ABSTRACT FROM AUTHOR]

Published

2018