Your search keyword '"López-Perea N"' showing total 5 results

1. Investigating Local Patterns of Mumps Virus Circulation, Using a Combination of Molecular Tools.

Author

Gavilán AM, Perán-Ramos P, Sanz JC, García-Comas L, Pérez-Abeledo M, Castellanos AM, Berciano JM, López-Perea N, Masa-Calles J, Echevarría JE, and Fernández-García A

Subjects

Humans, Phylogeny, Disease Outbreaks, Genotype, Mumps virus genetics, Mumps epidemiology

Abstract

Mumps is a vaccine-preventable disease caused by the mumps virus (MuV). However, MuV has re-emerged in many countries with high vaccine coverage. The World Health Organization (WHO) recommends molecular surveillance based on sequencing of the small hydrophobic (SH) gene. Additionally, the combined use of SH and non-coding regions (NCR) has been described in different studies, proving to be a useful complement marker to discriminate general patterns of circulation at national and international levels. The aim of this work is to test local-level usefulness of the combination of SH and MF-NCR sequencing in tracing hidden transmission clusters and chains during the last epidemic wave (2015-2020) in Spain. A database with 903 cases from the Autonomous Community of Madrid was generated by the integration of microbiological and epidemiological data. Of these, 453 representative cases were genotyped. Eight different SH variants and thirty-four SH haplotypes were detected. Local MuV circulation showed the same temporal pattern previously described at a national level. Only two of the thirteen previously identified outbreaks were caused by more than one variant/haplotype. Geographical representation of SH variants allowed the identification of several previously undetected clusters, which were analysed phylogenetically by the combination of SH and MF-NCR, in a total of 90 cases. MF-NCR was not able to improve the discrimination of geographical clusters based on SH sequencing, showing limited resolution for outbreak investigations.

Published

2023

2. Increase of Diversity of Mumps Virus Genotype G SH Variants Circulating Among a Highly Immunized Population: Spain, 2007-2019.

Author

Gavilán AM, Díez-Fuertes F, Sanz JC, Castellanos AM, López-Perea N, Jiménez SM, Ruiz-Sopeña C, Masa-Calles J, García-Comas L, de Ory F, Pérez-Olmeda M, Fernández-García A, and Echevarría JE

Subjects

Humans, Spain epidemiology, Phylogeny, Genotype, Mumps virus genetics, Mumps epidemiology, Mumps prevention & control

Abstract

MuV caused three epidemic waves in Spain since genotype G emerged in 2005, despite high vaccination coverage. SH gene sequencing according to WHO protocols allowed the identification of seven relevant variants and 88 haplotypes. While the originally imported MuVi/Sheffield.GBR/1.05/-variant prevailed during the first two waves, it was subsequently replaced by other variants originated by either local evolution or importation, according to the additional analysis of hypervariable NCRs. The time of emergence of the MRCA of each MuV variant clade was concordant with the data of the earliest sequence. The analysis of Shannon entropy showed an accumulation of variability on six particular positions as the cause of the increase on the number of circulating SH variants. Consequently, SH gene sequencing needs to be complemented with other more variable markers for mumps surveillance immediately after the emergence of a new genotype, but the subsequent emergence of new SH variants turns it unnecessary., Competing Interests: Potential conflicts of interest . All authors: No reported conflicts. All authors have submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest., (© The Author(s) 2022. Published by Oxford University Press on behalf of Infectious Diseases Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2022

3. Genomic non-coding regions reveal hidden patterns of mumps virus circulation in Spain, 2005 to 2015.

Author

Gavilán AM, Fernández-García A, Rueda A, Castellanos A, Masa-Calles J, López-Perea N, Torres de Mier MV, de Ory F, and Echevarría JE

Subjects

Cluster Analysis, Genomics, Genotype, Humans, Molecular Epidemiology, Molecular Sequence Data, Mumps diagnosis, Mumps epidemiology, Mumps genetics, Mumps virus isolation & purification, Phylogeny, Sequence Analysis, DNA, Spain epidemiology, Disease Outbreaks, Mumps virology, Mumps virus classification, Mumps virus genetics, RNA, Untranslated genetics, RNA, Viral genetics

Abstract

BackgroundSince mumps vaccination was introduced in 1981 in Spain, the incidence of the disease has dropped significantly. However, cyclic epidemic waves and outbreaks still occur, despite high vaccination coverage. The World Health Organization (WHO) recommends genotyping to trace the pattern of mumps virus (MuV) circulation. Genotype H was predominant in Spain, but was replaced in 2005 by genotype G which has subsequently remained dominant. Of the small hydrophobic protein gene sequences, 78% are identical and belong to the MuVi/ Sheffield.GBR.1.05/[G]-variant. Aim: Our study aimed to investigate whether the circulation of MuV strains in Spain was continuous after the emergence of genotype G in 2005. Method: We obtained 46 samples from Spanish patients infected with MuVi/Sheffield.GBR.1.05/[G] during two epidemic waves and analysed them using new molecular markers based on genomic non-coding regions (NCRs) that discriminate subvariants of this virus strain. Results: Phylogenetic analyses of the nucleoprotein-phosphoprotein and matrix protein-fusion protein NCR indicated strain replacement after a drop in incidence in 2009, which had not been detectable by SH sequencing. Clustering of sequences from patients epidemiologically linked in the same outbreak suggests a potential use for these NCRs in outbreak characterisation. Conclusion: We suggest to consider their use in conjunction with the SH gene in the future WHO recommendations for MuV epidemiological surveillance.

Published

2018

4. Shift within age-groups of mumps incidence, hospitalizations and severe complications in a highly vaccinated population. Spain, 1998-2014.

Author

López-Perea N, Masa-Calles J, Torres de Mier MV, Fernández-García A, Echevarría JE, De Ory F, and Martínez de Aragón MV

Subjects

Adolescent, Adult, Age Factors, Aged, Child, Child, Preschool, Disease Outbreaks prevention & control, Female, Humans, Incidence, Infant, Male, Middle Aged, Mumps virology, Spain epidemiology, Vaccination, Vaccination Coverage statistics & numerical data, Young Adult, Epidemiological Monitoring, Hospitalization statistics & numerical data, Immunization Programs, Mumps complications, Mumps epidemiology, Mumps Vaccine

Abstract

The mumps vaccine (Jeryl-Lynn-strain) was introduced in Spain in 1981, and a vaccination policy which included a second dose was added in 1995. From 1992-1999, a Rubini-strain based vaccine was administered in many regions but later withdrawn due to lack of effectiveness. Despite high levels of vaccination coverage, epidemics have continued to appear. We characterized the three epidemic waves of mumps between 1998 and 2014, identifying major changes in susceptible populations using Poisson regression. For the period 1998-2003 (P1), the most affected group was from 1 to 4years old (y) [Incidence Rate (IR)=71.7 cases/100,000 population]; in the periods 2004-2009 (P2) and 2010-2014 (P3) IR ratio (IRR) increased among 15-24y (P2=1.46; P3=2.68) and 25-34y (P2=2.17; P3=4.05). Hospitalization rate (HR), complication rate (CR) and neurological complication rate (NR) among hospitalized subjects decreased across the epidemics, except for 25-34y which increased: HR ratio (HRR) (P2=2.18; P3=2.16), CRR (P3=2.48), NRR (P3=2.41). In Spain mumps incidence increased, while an overall decrease of hospitalizations and severe complications occurred across the epidemics. Cohorts born during periods of low vaccination coverage and those vaccinated with Rubini-strain were the most affected populations, leading to a shift in mumps cases from children to adolescents and young adults; this also reveals the waning immunity provided by the mumps vaccine. Despite not preventing all mumps cases, the vaccine appears to prevent serious forms of the disease., (Copyright © 2017 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2017

5. Increase of Diversity of Mumps Virus Genotype G SH Variants Circulating Among a Highly Immunized Population: Spain, 2007–2019.

Author

Gavilán, A M, Díez-Fuertes, F, Sanz, J C, Castellanos, A M, López-Perea, N, Jiménez, S M, Ruiz-Sopeña, C, Masa-Calles, J, García-Comas, L, Ory, F de, Pérez-Olmeda, M, Fernández-García, A, and Echevarría, J E

Subjects

VIRUS diversity, GENOTYPES, UNCERTAINTY (Information theory), VACCINATION coverage, MUMPS

Abstract

MuV caused three epidemic waves in Spain since genotype G emerged in 2005, despite high vaccination coverage. SH gene sequencing according to WHO protocols allowed the identification of seven relevant variants and 88 haplotypes. While the originally imported MuVi/Sheffield.GBR/1.05/-variant prevailed during the first two waves, it was subsequently replaced by other variants originated by either local evolution or importation, according to the additional analysis of hypervariable NCRs. The time of emergence of the MRCA of each MuV variant clade was concordant with the data of the earliest sequence. The analysis of Shannon entropy showed an accumulation of variability on six particular positions as the cause of the increase on the number of circulating SH variants. Consequently, SH gene sequencing needs to be complemented with other more variable markers for mumps surveillance immediately after the emergence of a new genotype, but the subsequent emergence of new SH variants turns it unnecessary. [ABSTRACT FROM AUTHOR]

Published

2023