A robust comparison of dynamical scenarios in a glass-forming liquid

We use Bayesian inference methods to provide fresh insights into the sub-nanosecond dynamics of glycerol, a prototypical glass-forming liquid. To this end, quasielastic neutron scattering data as a function of temperature have been analyzed using a minimal set of underlying physical assumptions. On the basis of this analysis, we establish the unambiguous presence of three distinct dynamical processes in glycerol, namely, translational diffusion of the molecular centre of mass and two additional localized and temperature-independent modes. The neutron data also provide access to the characteristic length scales associated with these motions in a model-independent manner, from which we conclude that the faster (slower) localized motions probe longer (shorter) length scales. Careful Bayesian analysis of the entire scattering law favors a heterogeneous scenario for the microscopic dynamics of glycerol, where molecules undergo either the faster and longer or the slower and shorter localized motions.Peer ReviewedPostprint (author's final draft

Análisis de estrategias de enfoques multidisciplinario de atención clínica

En múltiples ocasiones el odontólogo se encuentra con ciertos desafíos frente a la posibilidad de tratamientos multidisciplinarios que involucran la instalación de implantes. El enfoque de la Odontología integrada permite realizar el diagnóstico general de la situación clínica y si el caso lo amerita, interrelación con otros especialistas, considerado fundamental para el logro de resultados estéticos y funcionales óptimos. Uno de los casos más frecuentes es la falta de espacio entre las piezas vecinas, puede deberse a extracciones realizadas tempranamente y que no contaron con la reposición requerida o con mantenedores de espacio, o por la ausencia de piezas debido a agenesias dentarias. Todos los casos que necesitan tratamiento multidisciplinario, deben ser consecutivos a la evaluación periodontal y es importante que el odontólogo generalista esté capacitado para diagnosticar tempranamente las lesiones periodontales en sus fases iniciales, interceptando la enfermedad.Fil: Mur, Carlos Lucio. Universidad Nacional de Cuyo. Facultad de Odontología

Impedimetric antimicrobial peptide-based sensor for the early detection of periodontopathogenic bacteria

Peri-implantitis, an inflammation caused by biofilm formation, constitutes a major cause of implant failure in dentistry. Thus, the detection of bacteria at the early steps of biofilm growth represents a powerful strategy to prevent implant-related infections. In this regard, antimicrobial peptides (AMPs) can be used as effective biological recognition elements to selectively detect the presence of bacteria. Thus, the aim of the present study was to combine the use of miniaturized and integrated impedimetric transducers and AMPs to obtain biosensors with high sensitivity to monitor bacterial colonization. Streptococcus sanguinis, which is one of the most prevalent strains in the onset of periodontal diseases, was used as a model of oral bacteria. To this end, a potent AMP derived from human lactoferrin was synthesized and covalently immobilized on interdigitated electrode arrays (IDEA). X-ray photoelectron spectroscopy (XPS) and electrochemical impedance spectroscopy (EIS) were employed to optimize and characterize the method of immobilization. Noteworthy, the interaction of Streptococcus sanguinis with AMP-coated sensors provoked significant changes in the impedance spectra, which were univocally associated with the presence of bacteria, proving the feasibility of our method. In this regard, the developed biosensor permits to detect the presence of bacteria at concentrations starting from 101 colony forming units (CFU) mL-1 in KCl and from 102 CFU mL-1 in artificial saliva. Moreover, the system was devoid of cytotoxicity for human fibroblasts. These results indicate that the proposed approach can be effective in the detection of initial stages of biofilm formation, and may be useful in the early prevention and treatment of peri-implantitisPeer ReviewedPostprint (author's final draft

Implanted muon spin spectroscopy on 2-O-adamantane: a model system that mimics the liquid

The transition taking place between two metastable phases in 2-O-adamantane, namely the [Formula: see text] cubic, rotator phase and the lower temperature P21/c, Z  =  4 substitutionally disordered crystal is studied by means of muon spin rotation and relaxation techniques. Measurements carried out under zero, weak transverse and longitudinal fields reveal a temperature dependence of the relaxation parameters strikingly similar to those exhibited by structural glass[Formula: see text]liquid transitions (Bermejo et al 2004 Phys. Rev. B 70 214202; Cabrillo et al 2003 Phys. Rev. B 67 184201). The observed behaviour manifests itself as a square root singularity in the relaxation rates pointing towards some critical temperature which for amorphous systems is located some tens of degrees above that shown as the characteristic transition temperature if studied by thermodynamic means. The implications of such findings in the context of current theoretical approaches concerning the canonical liquid-glass transition are discussed.Postprint (author's final draft

Antimicrobial peptides: Powerful biorecognition elements to detect bacteria in biosensing technologies

Bacterial infections represent a serious threat in modern medicine. In particular, biofilm treatment in clinical settings is challenging, as biofilms are very resistant to conventional antibiotic therapy and may spread infecting other tissues. To address this problem, biosensing technologies are emerging as a powerful solution to detect and identify bacterial pathogens at the very early stages of the infection, thus allowing rapid and effective treatments before biofilms are formed. Biosensors typically consist of two main parts, a biorecognition moiety that interacts with the target (i.e., bacteria) and a platform that transduces such interaction into a measurable signal. This review will focus on the development of impedimetric biosensors using antimicrobial peptides (AMPs) as biorecognition elements. AMPs belong to the innate immune system of living organisms and are very effective in interacting with bacterial membranes. They offer unique advantages compared to other classical bioreceptor molecules such as enzymes or antibodies. Moreover, impedance-based sensors allow the development of label-free, rapid, sensitive, specific and cost-effective sensing platforms. In summary, AMPs and impedimetric transducers combine excellent properties to produce robust biosensors for the early detection of bacterial infectionsPeer ReviewedPostprint (published version

Blocking methods to prevent non-specific adhesion of mesenchymal stem cells to titanium and evaluate the efficiency of surface functionalization: albumin vs poly(ethylene glycol) coating

Premio SIBB 2014Surface modification of biocompatible materials with biologically-active molecules is a well-known strategy to enhance the osteointegration of implantable devices. In order to evaluate the efficiency of these treatments, an in vitro study of cell behavior on the modified surface is usually carried out. A key point to evaluate the efficacy of this strategy is to avoid non specific protein adsorption by creating a non-fouling background. This blocking step ensures that the observed response of cells can be exclusively ascribed to the modification treatment applied. Several techniques are available to create this neutral background. Thus, the aim of this study is to compare two different blocking methods, namely adsorption of albumin from bovine serum (BSA) and grafting of small polyethylene glycol (PEG) chains to titanium, which is the gold standard metal for orthopedics and dentistry. To this end, titanium surfaces were coated with a recently synthesized cell adhesive peptide-based molecule and subjected to a blocking procedure with either BSA or PEG.  Non-functionalized titanium samples were also blocked and used as controls. The biological response of human mesenchymal stem cells was evaluated by measuring the number of attached cells and studying the degree of cell spreading on the substrate. Both aspects of cell behavior are not affected significantly by the blocking method: cells adhere and spread significantly more on the functionalized samples, regardless of the blocking method used. This confirms that the surface feature that defines cell response is the presence/absence of the biomolecule, and not the anti-fouling layer. These results, together with the reduction of variability of results observed in presence of a blocking layer, demonstrate the efficacy and necessity of blocking the surface. PEG grafting is demonstrated as effective as BSA coating in reducing non-specific interactions and not hindering the effect of the biomolecule. However, taken into account the numerous advantages of a synthetic and customizable polymer chain over a complex natural protein, PEG blocking stands out as a very good alternative to albumin adsorption.Peer ReviewedAward-winnin

Short range order of CCl4: RMC and MD methods

The main objective of this paper is to present a method to fully determine the six degrees of freedom regarding position and orientation of a neighboring molecule around a central one, i.e. the g(rCM,¿) distribution function. This is accomplished by completely determining the short range structure of liquid carbon tetrachloride, while employing results from two different methods, Molecular Dynamics (MD) [1] and Reverse Monte Carlo (RMC) [2]. Exclusively, the structural ordering of the first four molecules will be detailed.Postprint (published version

La integración social en Educación Primaria a través de los juegos cooperativos

La marginación y los diferentes conflictos que se originan en el horario de recreo por el alumnado de Primaria resultan unos problemas verdaderamente importantes, los cuales han llegado a convertirse en uno de los retos actuales de la educación en algunas escuelas. Por tanto, en este trabajo se promueven y realizan diferentes estrategias para acabar con estas necesidades. Una de las herramientas que creemos que puede ayudar a que los alumnos aumenten los niveles de integración, se minimicen los conflictos y, además, los alumnos incrementen sus niveles de AF es a través de proyectos de centro en los recreos por medio de los juegos cooperativos. Para ello, en este trabajo se profundiza acerca del concepto “juego” y se realiza una implementación de los juegos cooperativos en una escuela de primaria para recoger una serie de datos y posteriormente evaluar su efectividad en términos de fomentar la convivencia, el trabajo en equipo, las habilidades y la autonomía de cada individuo.<br /

Surface guidance of stem cell behavior: Chemically tailored co-presentation of integrin-binding peptides stimulates osteogenic differentiation in vitro and bone formation in vivo

Surface modification stands out as a versatile technique to create instructive biomaterials that are able to actively direct stem cell fate. Chemical functionalization of titanium has been used in this work to stimulate the differentiation of human mesenchymal stem cells (hMSCs) into the osteoblastic lineage, by covalently anchoring a synthetic double-branched molecule (PTF) to the metal that allows a finely controlled presentation of peptidic motifs. In detail, the effect of the RGD adhesive peptide and its synergy motif PHSRN is studied, comparing a random distribution of the two peptides with the chemically-tailored disposition within the custom made synthetic platform, which mimics the interspacing between the motifs observed in fibronectin. Contact angle measurement and XPS analysis are used to prove the efficiency of functionalization. We demonstrate that, by rationally designing ligands, stem cell response can be efficiently guided towards the osteogenic phenotype: In vitro, PTF-functionalized surfaces support hMSCs adhesion, with higher cell area and formation of focal contacts, expression of the integrin receptor a5ß1 and the osteogenic marker Runx2, and deposition a highly mineralized matrix, reaching values of mineralization comparable to fibronectin. Our strategy is also demonstrated to be efficient in promoting new bone growth in vivo in a rat calvarial defect. These results highlight the efficacy of chemical control over the presentation of bioactive peptides; such systems may be used to engineer bioactive surfaces with improved osseointegrative properties, or can be easily tuned to generate multi-functional coatings requiring a tailored disposition of the peptidic motifs.Peer ReviewedPostprint (author's final draft

Cell adhesive peptides functionalized on CoCr alloy stimulate endothelialization and prevent thrombogenesis and restenosis

Immobilization of bioactive peptide sequences on CoCr surfaces is an effective route to improve endothelialization, which is of great interest for cardiovascular stents. In this work, we explored the effect of physical and covalent immoblization of RGDS, YIGSR and their equimolar combination peptides on endothelial cells (EC) and smooth muscle cell (SMC) adhesion and on thrombogenicity. We extensively investigated using RT-qPCR, the expression by ECs cultured on functionalised CoCr surfaces of different genes. Genes relevant for adhesion (ICAM-1 and VCAM-1), vascularization (VEGFA, VEGFR-1 and VEGFR-2) and anti-thrombogenicity (tPA and eNOS) were over-expressed in the ECs grown to covalently functionalized CoCr surfaces compared to physisorbed and control surfaces. Pro-thrombogenic genes expression (PAI-1 and vWF) decreased over time. Cell co-cultures of ECs/SMCs found that functionalization increased the amount of adhered ECs onto modified surfaces compared to plain CoCr, independently of the used peptide and the strategy of immobilization. SMCs adhered less compared to ECs in all surfaces. All studied peptides showed a lower platelet cell adhesion compared to TCPS. Covalent functionalization of CoCr surfaces with an equimolar combination of RGDS and YIGSR represented prevailing strategy to enhance the early stages of ECs adhesion and proliferation, while preventing SMCs and platelet adhesion.Postprint (author's final draft