We protect your health through science
Investigation
Antibiotic Resistance
Publications
Chikungunya virus infections among travellers returning to Spain, 2008 to 2014.
5. M.D. Fernandez-Garcia, M. Bangert, F. de Ory, A. Potente, L. Hernández, F. Lasala, L. Herrero, F. Molero, A. Negredo, A. Vázquez, T. Minguito, P. Balfagón, J. de la Fuente, S. Puente, E. Ramírez de Arellano, M. Lago, M.J. Martinez, J. Gascón, F. Norman, R. Lopez-Velez, E. Sulleiro, D. Pou, N. Serre, R. Fernández-Roblas, A. Tenorio, L. Franco, M.P. Sánchez-Seco (2016). Chikungunya virus infections among travelers returning to Spain, 2008-2014. EUROSURVEILLANCE 2016; 21(36):pii=30336.
PUBMED DOIComparison of commercial methods of immunoblot, ELISA, and chemiluminescent immunoassay for detecting type-specific herpes simplex viruses-1 and -2 IgG.
7. F. de Ory, M.E. Guisasola, P. Balfagón, J.C. Sanz. 2018. Comparison of commercial methods of immunoblot, ELISA, and chemiluminescent immunoassay for detecting type-specific herpes simplex viruses-1 and -2 IgG. JOURNAL OF CLINICAL LABORATORY ANALYSIS; 32:e22203.
PUBMED DOIGenomic non-coding regions reveal hidden patterns of mumps virus circulation in Spain, 2005 to 2015.
8. A.M. Gavilán, A. Fernández-García, A. Rueda, A. Castellanos, J. Masa-Calles, N. López-Perea, M.V. Torres de Mier, F. de Ory, J.E. Echevarría. 2018. Genomic non-coding regions reveal hidden patterns of mumps virus circulation in Spain, 2005 to 2015. EUROSURVEILLANCE, 2018;23(15):pii=17-00349.
PUBMED DOIComparative evaluation of indirect immunofluoresecence and NS-1 based ELISA for the determination of Zika virus specific IgM.
9. F. de Ory, M.P. Sánchez-Seco, A. Vázquez, M.D. Montero, E. Sulleiro, M.J. Martinez, L. Matas, F.J. Merino, and Working Group for the Study of Zika Virus Infections (WGSZVI). 2018. Comparative evaluation of indirect immunofluoresecence and NS-1 based ELISA for the determination of Zika virus specific IgM. VIRUSES 10, 379
PUBMED DOIMeasles virus genotype D4 strains with non-standard genome lengths circulated during the large outbreaks in Spain in 2011-2012
10. H. Gil, A. Fernández-García, M.M. Mosquera, J.M. Hübschen, A. Castellanos, F. de Ory, J. Masa, J.E. Echevarria. 2018. Measles virus genotype D4 strains with non-standard length M-F non-coding region circulated during the major outbreaks of 2011-2012 in Spain. PLOS ONE July 16, 2018.
PUBMED DOIHepatitis E genotype 3 genome: A comprehensive analysis of entropy, motif conservation, relevant mutations, and clade-associated polymorphisms
• Muñoz-Chimeno M, Rodríguez-Paredes V, García-Lugo MA, Avellón A. Hepatitis E genotype 3 genome: A comprehensive analysis of entropy, motif conservation, relevant mutations, and clade-associated polymorphisms. Front Microbiol. 2022 Oct 6;13:1011662.
PUBMED DOIFrecuencia de sustituciones relevantes asociadas a resistencia en la región NS5A a elbasvir en el virus de la hepatitis C en pacientes con genotipo 1a en España
Palladino C, Esteban-Cartelle B, Mate-Cano I, Sánchez-Carrillo M, Resino S, Briz V. Frecuencia de sustituciones relevantes asociadas a resistencia en la región NS5A a elbasvir en el virus de la hepatitis C en pacientes con genotipo 1a en España Enferm Infecc Microbiol Clin. 2018; 36 (5): 262-267
PUBMED DOIAdditional Information
Our general objective is to provide early knowledge about any emerging antibiotic resistance mechanism in our country. This contribution of knowledge is based on transversal objectives that we consider key, such as 1) the ability to adapt research to emerging resistance problems, 2) the promotion of cooperative and multidisciplinary research studies working in networks with different Spanish and foreign centers, 3) the transfer of research results in an agile way to the clinical practice of the national health system, and 4) the promotion of the interrelation of research with reference, advice, training and dissemination seeking the empowerment of all.
More specifically, our main scientific objectives are the characterization of the molecular bases of antibiotic resistance in pathogenic bacteria, the study of the molecular epidemiology and population structure of resistant bacteria, the characterization of the mobile genetic elements that carry resistance genes, and the development of diagnostic techniques and therapeutic alternatives against bacteria with extensive resistance to antibiotics. In this sense, research into the dissemination pathways of Enterobacteriaceae, Acinetobacter baumannii and carbapenemase-producing Pseudomonas aeruginosa (as a paradigm of extensive resistance and pan-resistance) is one of our current priority objectives.
Our general objective is to provide early knowledge about any emerging antibiotic resistance mechanism in our country. This contribution of knowledge is based on transversal objectives that we consider key, such as 1) the ability to adapt research to emerging resistance problems, 2) the promotion of cooperative and multidisciplinary research studies working in networks with different Spanish and foreign centers, 3) the transfer of research results in an agile way to the clinical practice of the national health system, and 4) the promotion of the interrelation of research with reference, advice, training and dissemination seeking the empowerment of all.
More specifically, our main scientific objectives are the characterization of the molecular bases of antibiotic resistance in pathogenic bacteria, the study of the molecular epidemiology and population structure of resistant bacteria, the characterization of the mobile genetic elements that carry resistance genes, and the development of diagnostic techniques and therapeutic alternatives against bacteria with extensive resistance to antibiotics. In this sense, research into the dissemination pathways of Enterobacteriaceae, Acinetobacter baumannii and carbapenemase-producing Pseudomonas aeruginosa (as a paradigm of extensive resistance and pan-resistance) is one of our current priority objectives.