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Dive into the research topics where Bárbara Adrados is active.

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Featured researches published by Bárbara Adrados.


Microbial Ecology | 2011

Viable Real-Time PCR in Environmental Samples: Can All Data Be Interpreted Directly?

Mariana Fittipaldi; Francesc Codony; Bárbara Adrados; Anne K. Camper; Jordi Morató

Selective nucleic acid intercalating dyes—ethidium monoazide (EMA) and propidium monoazide (PMA)—represent one of the most successful recent approaches to detect viable cells (as defined by an intact cell membrane) by PCR and have been effectively evaluated in different microorganisms. However, some practical limitations were found, especially in environmental samples. The aim of this work was to show that in the application of viable real-time PCR, there may be significant biases and to propose a strategy for overcoming some of these problems. We present an approach based on the combination of three real-time PCR amplifications for each sample that should provide an improved estimation of the number of viable cells. This approach could be useful especially when it is difficult to determine a priori how to optimize methods using PMA or EMA. Although further studies are required to improve viable real-time PCR methods, the concept as outlined here presents an interesting future research direction.


Journal of Virological Methods | 2010

Discrimination of infectious bacteriophage T4 virus by propidium monoazide real-time PCR

Mariana Fittipaldi; Nancy J Pino Rodríguez; Francesc Codony; Bárbara Adrados; Gustavo Peñuela; Jordi Morató

The advent of quantitative PCR has improved the detection of human viral pathogens in the environment. However, a serious limitation of this method may arise from the inability to discriminate between viruses that are infectious and viruses that have been inactivated and do not represent a human health hazard. To assess whether propidium monoazide (PMA) pre-treatment is a good approach to inhibiting DNA amplification from non-infectious viruses, bacteriophage T4 survival was measured using cell culture titration and real-time PCR with and without PMA pre-treatment. Heat (85 degrees C) and proteolysis methods were carried out. After these inactivation treatments, the results indicated that the PMA pre-treatment approach is not appropriate for differentiating infectious viruses. However, when a heat treatment at 110 degrees C was undertaken, PMA pre-treatment did allow differentiation of non-infectious from infectious viruses. In this case, effective binding of PMA to bacteriophage T4 DNA could be taken to indicate capsid damage. Therefore, PMA pre-treatment may be appropriate for assessing effective disinfection treatments and for a more reliable understanding of the factors that contribute to viral inactivation through capsid damage monitoring. The PMA-PCR approach could be useful as a rapid and inexpensive analytical tool for screening and evaluation of the efficacy of disinfectants.


Helicobacter | 2010

Viability Determination of Helicobacter pylori Using Propidium Monoazide Quantitative PCR

Gemma Agustí; Francesc Codony; Mariana Fittipaldi; Bárbara Adrados; Jordi Morató

Background:  While Helicobacter pylori exists in a bacillary form in both the natural habitat and the human host, detrimental environmental circumstances have been observed to lead to the conversion of H. pylori from the bacillary to the coccoid form. However, the viability or nonviability of coccoid forms remains to be established in H. pylori. The aim of this study was to determine whether the quantitative PCR combined with propidium monoazide could be an alternative and good technique to determine H. pylori viability in environmental samples and, to contribute to understanding of the role of the H. pylori forms.


Journal of Eukaryotic Microbiology | 2011

Discrimination of viable Acanthamoeba castellani trophozoites and cysts by propidium monoazide real-time polymerase chain reaction.

Mariana Fittipaldi; Nancy J Pino Rodríguez; Bárbara Adrados; Gemma Agustí; Gustavo Peñuela; Jordi Morató; Francesc Codony

ABSTRACT. Even though the advent of quantitative polymerase chain reaction (PCR) has improved the detection of pathogen microorganisms in most of areas of microbiology, a serious limitation of this method may arise from the inability to discriminate between viable and nonviable pathogens. To overcome it, the use of real‐time PCR and selective nucleic acid intercalating dyes like propidium monoazide (PMA) have been effectively evaluated for different microorganisms. To assess whether PMA pretreatment can inhibit PCR amplification of nonviable amoeba DNA, Acanthamoeba castellani survival was measured using cell culture and real‐time PCR with and without PMA pretreatment. Autoclave and contact lens disinfecting solutions were used to inactivate amoebae. After these inactivation treatments, the results indicated that the PMA pretreatment approach is appropriate for differentiating viable A. castellani, both trophozoites and cysts. Therefore, the PMA‐PCR approach could be useful as a rapid and sensitive analytical tool for monitoring treatment and disease control, assessing effective disinfection treatments, and for a more reliable understanding of the factors that contribute to the interaction amoeba–pathogenic bacteria.


Future Microbiology | 2012

Amoeba-related health risk in drinking water systems: could monitoring of amoebae be a complementary approach to current quality control strategies?

Francesc Codony; Leonardo Martín Pérez; Bárbara Adrados; Gemma Agustí; Mariana Fittipaldi; Jordi Morató

Culture-based methods for fecal indicator microorganisms are the standard protocol to assess potential health risk from drinking water systems. However, these traditional fecal indicators are inappropriate surrogates for disinfection-resistant fecal pathogens and the indigenous pathogens that grow in drinking water systems. There is now a range of molecular-based methods, such as quantitative PCR, which allow detection of a variety of pathogens and alternative indicators. Hence, in addition to targeting total Escherichia coli (i.e., dead and alive) for the detection of fecal pollution, various amoebae may be suitable to indicate the potential presence of pathogenic amoeba-resisting microorganisms, such as Legionellae. Therefore, monitoring amoeba levels by quantitative PCR could be a useful tool for directly and indirectly evaluating health risk and could also be a complementary approach to current microbial quality control strategies for drinking water systems.


Letters in Applied Microbiology | 2010

A new microtitre plate screening method for evaluating the viability of aerobic respiring bacteria in high surface biofilms.

Leonardo Martín Pérez; B.L. Álvarez; Francesc Codony; Mariana Fittipaldi; Bárbara Adrados; Gustavo Peñuela; Jordi Morató

Aims:  It is difficult to determine the effects of bactericidal compounds against bacteria in a biofilm because classical procedures for determining cell viability require several working days, multiple complicated steps and are frequently only applicable to cells in suspension. We attempt to develop a compact, inexpensive and versatile system to measure directly the extent of biofilm formation from water systems and to determine the viability of respiring bacteria in high surface biofilms.


Folia Microbiologica | 2013

Error estimation in environmental DNA targets quantification due to PCR efficiencies differences between real samples and standards

Leonardo Martín Pérez; Mariana Fittipaldi; Bárbara Adrados; Jordi Morató; Francesc Codony

IntroductionNowadays, as in the past, our knowledge of microbiology islimited because of the capacity of available technologytools. In recent decades, molecular techniques are playinga central role in the understanding of the microbial world. Inthis sense, a complete scientific evaluation of biologicalsamples is not possible without using molecular biology.The most influential technique has probably been the poly-merasechainreaction(PCR),whichallowsustoworkbeyondclassicalmicrobiology.WithPCR,insomecases,theneedforculture may be avoided. Nevertheless, until the developmentof real-time PCR, our evaluation of the microbial complexityhas been merely qualitative.Real-time PCR is an evolution of the conventional end-point PCR wherein the amplification of a target gene and itsfluorescence detection occurs simultaneously during eachcycle. Different strategies based on the use of nonspecificDNA intercalating dyes or specific fluorescent probes existfor linking target amplification to fluorescence detection.Regardless of the fluorescence emission mechanisms in-volved, real-time PCR enables both detection and quantifica-tion of a genetic target by a continuous fluorescencemonitoring of DNA amplification (Higuchi et al. 1993).An advantage in real-time PCR isthat target quantificationsensitivity is independent of the copy number within thesample (Freeman et al. 1999). Moreover, the key aspect thatdifferentiates real-time PCR from previous semi-quantitativemethodologies is that target DNA concentration can be deter-mined from the fractional cycle at which a threshold amountof target DNA is produced (i.e., measured signal exceeds abackground level), set at a point where amplicon DNA justbecomesdetectablebutisstillwithintheexponentialphaseoftheamplification(Higuchietal.1993;Rasmussen2001).Thisquantificationcycle(Cq)(orcyclethreshold,Ct)areinverselyproportionaltotheamountoftargetnucleicacidinthesample(i.e., the lower the Cq value, the greater the amount of targetnucleic acid in the sample). This approach ensures that inter-fering factors associated with later stages of the amplificationare minimized and considerably improves the measurementprecision (Rasmussen 2001).One of the most important points is that real-time PCRallows quantitative measurements. In order to estimate atarget concentration in environmental samples, absolutequantification can be performed using a standard curveconstructed by amplifying known amounts of target DNA(Rutledge and Cote 2003). Nowadays, this approach is themost commonly used in environmental microbiology.Real-time PCR has many advantages over conventionalendpoint PCR including speed, broad dynamic range ofquantification, reduced risk of contamination, and goodsensitivity. However, despite all these objective strengths,real-time PCR sensitivity is not better than conventionalPCR if a protocol validation is not performed (Bastien etal. 2008).


Journal of Zhejiang University-science B | 2010

Quantification of Helicobacter pylori levels in soil samples from public playgrounds in Spain

Leonardo Martín Pérez; Francesc Codony; Daniela López Leyton; Mariana Fittipaldi; Bárbara Adrados; Jordi Morató

Helicobacter pylori are ubiquitous Gram-negative bacteria with a high estimated level of infection in the world populations, but a majority of the infected persons are asymptomatic. This pathogen has been classified by the World Health Organization as a class I carcinogen and recognized as the causal agent of most peptic ulcers and chronic gastritis that might lead to stomach cancer. Although not all the transmission pathways of these bacteria into humans have been properly identified, enough data have suggested that the oral-oral or fecal-oral ones are the main infection routes. Helicobacter pylori have been detected in non-treated water and in drinking water, which suggested that water might be an important infection source. As childhood is the critical period of infection, the aim of the present work was to examine the presence of Helicobacter pylori in soil samples from public playing areas of Spanish parks.


Folia Microbiologica | 2012

Searching Simkania negevensis in environmental waters

Leonardo Martín Pérez; Francesc Codony; Karina Ríos; Gustavo Peñuela; Bárbara Adrados; Mariana Fittipaldi; Gregori de Dios; Jordi Morató

Simkania negevensis is an obligate intracellular bacterium grouped into the order Chlamydiales. This new amoeba-resistant bacterium represents a novel aetiologic agent of bronchiolitis and community-acquired pneumonia in both adults and children. It has been suggested that Simkania could be an ubiquitous microorganism presented in water environments. In the natural history of infections with amoeba-related bacteria encountered in aquatic habitats, the transmissions by environmental aerosols or contaminated water/air systems have been extensively recognized. Therefore, understanding the feasibility of Simkania infection by these or similar routes is relevant. In the present work, we investigated the prevalence of this novel disease-associated microorganism in water samples from different sources by real-time PCR (qPCR). Our results show Simkania detection in 5 of 185 water analyzed samples (2.7%: 2 of 88 cooling towers and 3 of 8 waste water samples). However, no Simkania was detected in a drinking water.


Journal of Zhejiang University-science B | 2009

Detection of Catabacter hongkongensis in polluted European water samples

Francesc Codony; Bárbara Adrados; Leonardo Martín Pérez; Mariana Fittipaldi; Jordi Morató

The Catabacteriaceae is a new bacterial family with a unique member: Catabacter hongkongensis is a strictly anaerobic, non-sporulating, Gram-positive coccobacillus that is phylogenetically related to some clostridial clusters. Little is known of its epidemiology and environmental distribution, but the inclusion of its 16S rRNA gene sequence in GenBank has allowed it to be detected qualitatively. As a first approach for prospective surveys, a real-time polymerase chain reaction (PCR) procedure to identify C. hongkongensis has been developed. The presence of Catabacteriaceae in 29 water bodies subjected to possible human or animal impact has been investigated. Four of them were positive. The results confirm that highly polluted water can contain C. hongkongensis.

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Francesc Codony

Polytechnic University of Catalonia

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Jordi Morató

Polytechnic University of Catalonia

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Mariana Fittipaldi

Polytechnic University of Catalonia

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Leonardo Martín Pérez

National Scientific and Technical Research Council

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Gemma Agustí

Polytechnic University of Catalonia

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Karina Ríos

University of Antioquia

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B.L. Álvarez

Polytechnic University of Catalonia

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Eduard Torrents

Autonomous University of Barcelona

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