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Investigation
Pneumococcus
Publications
Comparison of two highly discriminatory typing methods to analyze Aspergillus fumigatus azole resistance
Garcia-Rubio R, Escribano P, Gomez A, Guinea J, and Mellado E. Comparison of two highly discriminatory typing methods to analyze Aspergillus fumigatus azole resistance. Frontiers in Microbiology 2018. Jul 20;9:1626.
PUBMED DOIEvaluation of the possible influence of trailing and paradoxical effects on the clinical outcome of patients with candidemia.
Rueda C, Puig-Asensio M, Guinea J, Almirante B, Cuenca-Estrella M, Zaragoza O. Evaluation of the possible influence of trailing and paradoxical effects on the clinical outcome of patients with candidemia. CANDIPOP Project from GEIH-GEMICOMED (SEIMC) and REIPI. Clin Microbiol Infect. 2017 Jan; 23(1):49.e1-49.e8.
PUBMED DOIDevelopment and Validation of a High-Resolution Melting Assay To Detect Azole Resistance in Aspergillus fumigatus.
Bernal-Martínez L, Gil H, Rivero-Menéndez O, Gago S, Cuenca-Estrella M, Mellado E, Alastruey-Izquierdo A. Development and Validation of a High-Resolution Melting Assay To Detect Azole Resistance in Aspergillus fumigatus. Antimicrob Agents Chemother. 2017 Nov 22;61(12). pii: e01083-17.
PUBMED DOICervicofacial lymphadenitis due Mycobacterium mantenii: rapid and reliable identification by MALDI-TOF MS.
Nebreda T, Andres AG, Fuentes S, Calleja R, Jimenez MS. Cervicofacial lymphadenitis due Mycobacterium mantenii: rapid and reliable identification by MALDI-TOF MS. New Microbes and New Infections .2018. March 22:1-3.
PUBMED DOIIn-depth analysis of the genome sequence of a clinical, extensively drug-resistant Mycobacterium bovis strain.
Sagasta S, Millan-Lou MI, Jiménez MS, Martin C, Samper S. In-depth analysis of the genome sequence of a clinical, extensively drug-resistant Mycobacterium bovis strain. Tuberculosis. 2016. Sep. 100:46-52.
PUBMED DOIGeneration and Characterization of ALX-0171, a Potent Novel Therapeutic Nanobody for the Treatment of Respiratory Syncytial Virus Infection
Detalle L, Stohr T, Palomo C, Piedra PA, Gilbert BE, Mas V, et al. Generation and Characterization of ALX-0171, a Potent Novel Therapeutic Nanobody for the Treatment of Respiratory Syncytial Virus Infection. Antimicrob Agents Chemother. 2016;60(1):6-13.
PUBMED DOICharacterization of an enhanced antigenic change in the pandemic 2009 H1N1 influenza virus haemagglutinin
Garcia-Barreno B, Delgado T, Benito S, Casas I, Pozo F, Cuevas MT, et al. Characterization of an enhanced antigenic change in the pandemic 2009 H1N1 influenza virus haemagglutinin. J Gen Virol. 2014;95(Pt 5):1033-42.
PUBMED DOIAdditional Information
The Pneumococcus Unit is in charge of two very important aspects related to pneumococcus infections, such as epidemiological surveillance and basic and translational research of diseases caused by this pathogen. Our unit contributes to the epidemiological surveillance of invasive pneumococcal disease (IPD), characterizing the serotypes and genotypes of invasive pneumococci circulating in Spain, as well as the evolution of antibiotic resistance in this pathogen.
Identification of culture-negative samples (CSF and pleural fluids) is performed using real-time PCR. Serotyping is performed using the Dot-blot and PCR-sequencing technique. Genotyping for the study of outbreaks and characterization of clones associated with hypervirulent and/or multiresistant strains is performed using the MLST technique and the analysis of complete genomes by massive sequencing. In addition, antibiotic susceptibility is determined following the EUCAST criteria.
Our unit belongs to the IBD-labnet network of the ECDC and annually notifies all cases of IPD to the ECDC and also to the IRIS (Invasive Respiratory Infection Surveillance) network. At the level of basic and translational research, our unit is responsible for studying and characterizing different molecular mechanisms of pathogenicity and protection related to pneumococcal infection. Among the main objectives are the molecular characterization of virulence factors, the study of different vaccine candidate proteins and determining the possible impact that tobacco smoke and the formation of biofilms have on the colonization of the respiratory tract.
The Pneumococcus Unit is in charge of two very important aspects related to pneumococcus infections, such as epidemiological surveillance and basic and translational research of diseases caused by this pathogen. Our unit contributes to the epidemiological surveillance of invasive pneumococcal disease (IPD), characterizing the serotypes and genotypes of invasive pneumococci circulating in Spain, as well as the evolution of antibiotic resistance in this pathogen.
Identification of culture-negative samples (CSF and pleural fluids) is performed using real-time PCR. Serotyping is performed using the Dot-blot and PCR-sequencing technique. Genotyping for the study of outbreaks and characterization of clones associated with hypervirulent and/or multiresistant strains is performed using the MLST technique and the analysis of complete genomes by massive sequencing. In addition, antibiotic susceptibility is determined following the EUCAST criteria.
Our unit belongs to the IBD-labnet network of the ECDC and annually notifies all cases of IPD to the ECDC and also to the IRIS (Invasive Respiratory Infection Surveillance) network. At the level of basic and translational research, our unit is responsible for studying and characterizing different molecular mechanisms of pathogenicity and protection related to pneumococcal infection. Among the main objectives are the molecular characterization of virulence factors, the study of different vaccine candidate proteins and determining the possible impact that tobacco smoke and the formation of biofilms have on the colonization of the respiratory tract.