87 research outputs found

    THE SUBMERGED HERITAGE: A VIRTUAL JOURNEY IN OUR SEABED

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    On 21 and 22 August 1972, a young diver near the coast of Riace Marina (South Italy) found two bronze statues representing one of the highest moments of the sculptural production and the most important archaeological discovery of the last century: the Riace Bronzes. The Geomatics Laboratory of the Mediterranean University of Reggio Calabria sets a goal to relive and re-propose the experience of a real immersion and the exciting moment of the discovery: an immersive journey in the interest of interactivity in virtual reality. Immersive Virtual Reality tries to combine the real and the virtual world, even involving our senses. In other words, it allows us to enter into the scenery like the virtual reality one, but without being just simple spectators. We become protagonists and we can participate and decide what to do and how to do it. Unity 3D is the multi-platform development environment used. The scenarios and the objects included in the scene from three-dimensional models were realized through photogrammetric techniques (seabed and bronzes). Remote Operated Vehicles (ROVs) have been widely used in recent times by researchers to explore underwater environments, both in shallow and deep water, for different types of studies. The seabed was detected through the aid of an experimental ROV (realized in a broader project of agreement with the IPCF CNR Messina). The use of a grid of known dimensions assisted the ROV’s use in order to correct the effects of distortion effects obtained in water. The proposed app is still being perfected and completed

    A simulator for drones and Fanet management supporting multimedia traffic under human mobility

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    In this paper a simulator for the management of a team of Unmanned Aerial Vehicles (UAVs) and drones has been proposed. This new network is known as Fly Ad-Hoc Network (FANET), and it is a particular type of Mobile Ad-Hoc Network (MANET) but with some specific aspects that allow to provide new services in future generation networks. One of the possible applications is emergency situations or scenario where drones can provide an additional or complementary access networks supporting web services and multimedia traffic. In this paper a simulator for FANET deploying has been proposed providing the possibility to simulate different scenarios with different coverage areas. New coverage model has been included in the features and also interesting human mobility model to support more realistic users mobility. Moreover, additional modules for traffic pattern generation have been implemented to create scenario where mobile users can activate multimedia calls and traffic on FANET. Some simulations have been led out to show how the simulator works

    A new FANET simulator for managing drone networks and providing dynamic connectivity

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    In the last decade, the attention on unmanned aerial vehicles has rapidly grown, due to their ability to help in many human activities. Among their widespread benefits, one of the most important uses regards the possibility of distributing wireless connectivity to many users in a specific coverage area. In this study, we focus our attention on these new kinds of networks, called flying ad-hoc networks. As stated in the literature, they are suitable for all emergency situations where the traditional networking paradigm may have many issues or difficulties to be implemented. The use of a software simulator can give important help to the scientific community in the choice of the right UAV/drone parameters in many different situations. In particular, in this work, we focus our main attention on the new ways of area covering and human mobility behaviors with the introduction of a UAV/drone behavior model to take into account also drones energetic issues. A deep campaign of simulations was carried out to evaluate the goodness of the proposed simulator illustrating how it works

    A deep stochastical and predictive analysis of users mobility based on Auto-Regressive processes and pairing functions

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    With the proliferation of connected vehicles, new coverage technologies and colossal bandwidth availability, the quality of service and experience in mobile computing play an important role for user satisfaction (in terms of comfort, security and overall performance). Unfortunately, in mobile environments, signal degradations very often affect the perceived service quality, and predictive approaches become necessary or helpful, to handle, for example, future node locations, future network topology or future system performance. In this paper, our attention is focused on an in-depth stochastic micro-mobility analysis in terms of nodes coordinates. Many existing works focused on different approaches for realizing accurate mobility predictions. Still, none of them analyzed the way mobility should be collected and/or observed, how the granularity of mobility samples collection should be set and/or how to interpret the collected samples to derive some stochastic properties based on the mobility type (pedestrian, vehicular, etc.). The main work has been carried out by observing the characteristics of vehicular mobility, from real traces. At the same time, other environments have also been considered to compare the changes in the collected statistics. Several analyses and simulation campaigns have been carried out and proposed, verifying the effectiveness of the introduced concepts

    From GeoVisualization to visual-analytics: methodologies and techniques for human-information discourse

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    2010 - 2011The objective of our research is to give support to decision makers when facing problems which require rapid solutions in spite of the complexity of scenarios under investigation. In order to achieve this goal our studies have been focused on GeoVisualization and GeoVisual Analytics research field, which play a relevant role in this scope, because they exploit results from several disciplines, such as exploratory data analysis and GIScience, to provide expert users with highly interactive tools by which they can both visually synthesize information from large datasets and perform complex analytical tasks. The research we are carrying out along this line is meant to develop software applications capable both to build an immediate overview of a scenario and to explore elements featuring it. To this aim, we are defining methodologies and techniques which embed key aspects from different disciplines, such as augmented reality and location-based services. Their integration is targeted to realize advanced tools where the geographic component role is primary and is meant to contribute to a human-information discourse... [edited by author]X n.s

    Innovative Methods and Materials in Structural Health Monitoring of Civil Infrastructures

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    In the past, when elements in sructures were composed of perishable materials, such as wood, the maintenance of houses, bridges, etc., was considered of vital importance for their safe use and to preserve their efficiency. With the advent of materials such as reinforced concrete and steel, given their relatively long useful life, periodic and constant maintenance has often been considered a secondary concern. When it was realized that even for structures fabricated with these materials that the useful life has an end and that it was being approached, planning maintenance became an important and non-negligible aspect. Thus, the concept of structural health monitoring (SHM) was introduced, designed, and implemented as a multidisciplinary method. Computational mechanics, static and dynamic analysis of structures, electronics, sensors, and, recently, the Internet of Things (IoT) and artificial intelligence (AI) are required, but it is also important to consider new materials, especially those with intrinsic self-diagnosis characteristics, and to use measurement and survey methods typical of modern geomatics, such as satellite surveys and highly sophisticated laser tools

    Ecology-based planning. Italian and French experimentations

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    This paper examines some French and Italian experimentations of green infrastructures’ (GI) construction in relation to their techniques and methodologies. The construction of a multifunctional green infrastructure can lead to the generation of a number of relevant bene fi ts able to face the increasing challenges of climate change and resilience (for example, social, ecological and environmental through the recognition of the concept of ecosystem services) and could ease the achievement of a performance-based approach. This approach, differently from the traditional prescriptive one, helps to attain a better and more fl exible land-use integration. In both countries, GI play an important role in contrasting land take and, for their adaptive and cross-scale nature, they help to generate a res ilient approach to urban plans and projects. Due to their fl exible and site-based nature, GI can be adapted, even if through different methodologies and approaches, both to urban and extra-urban contexts. On one hand, France, through its strong national policy on ecological networks, recognizes them as one of the major planning strategies toward a more sustainable development of territories; on the other hand, Italy has no national policy and Regions still have a hard time integrating them in already existing planning tools. In this perspective, Italian experimentations on GI construction appear to be a simple and sporadic add-on of urban and regional plans

    Preliminary Results for the Multi-Robot, Multi-Partner, Multi-Mission, Planetary Exploration Analogue Campaign on Mount Etna

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    This paper was initially intended to report on the outcome of the twice postponed demonstration mission of the ARCHES project. Due to the global COVID pandemic, it has been postponed from 2020, then 2021, to 2022. Nevertheless, the development of our concepts and integration has progressed rapidly, and some of the preliminary results are worthwhile to share with the community to drive the dialog on robotics planetary exploration strategies. This paper includes an overview of the planned 4-week campaign, as well as the vision and relevance of the missiontowards the planned official space missions. Furthermore, the cooperative aspect of the robotic teams, the scientific motivation, the sub task achievements are summarised

    Nanofibrous membranes obtained by electrospinning for bone tissue engineering and wound dressing applications

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    Esta tesis doctoral se ha realizado dentro del marco de un acuerdo de co-tutela entre la Universidad de Zaragoza (Universidad de origen), la Universidad de Calabria (Universidad anfitriona) y la Facultad de Ciencias y Tecnología de la Universidad NOVA de Lisboa (FCT NOVA) (Universidad anfitriona). El trabajo de investigación se ha llevado a cabo dentro del programa de Doctorado en Ingeniería de Membranas Erasmus Mundus (EUDIME), (FPA 2011-0014), financiado por la Unión Europea. La tesis se centró principalmente en el uso de la técnica de electrohilado para producir diferentes tipos de membranas que puedan ser utilizadas en distintas aplicaciones biomédicas. Se sintetizaron y produjeron nanopartículas orgánicas e inorgánicas para ser utilizadas como rellenos o como portadores (sistema de administración de fármacos), así como membranas nanofibrosas electrohiladas. Este trabajo se llevó a cabo en el Instituto de Nanociencia de Aragón (INA), específicamente en el grupo de Nanostructured Films and Particles (NFP) bajo la supervisión de la profesora Silvia Irusta y la Dra. Gracia Mendoza. Una parte importante de la caracterización físico-química se realizó en el INA. En la Universidad de Calabria se trabajó bajo la supervisión de la Dra. Loredana de Bartolo en el Instituto de Tecnología de Membranas (ITM). Allí se utilizaron técnicas específicas tanto para la caracterización como para estudiar diferentes señales biológicas producidas por las membranas sintetizadas, bajo la supervisión. Por otro lado, la movilidad llevada a cabo en la Facultad de Ciencias y Tecnología (FCT NOVA) de la Universidade NOVA (FCT NOVA) bajo la supervisión de la profesora Ana Isabel Aguiar-Ricardo, permitió realizar una caracterización completa de dos membranas asimétricas siguiendo diferentes Normas Internacionales que establecen diferentes ensayos a realizar en apósitos primarios utilizados en heridas. El desarrollo de nuevos scaffolds cargados con proteínas morfogenéticas o antibióticos es de gran interés en el campo de la ingeniería de tejidos óseos. Scaffolds electrohilados con una microporosidad mejorada puede ser beneficioso para mejorar la viabilidad celular debido a que una alta porosidad junto a la presencia de microporos puede proporcionar un entorno tridimensional (3D) que no solamente facilita la siembra y difusión celular sino también proporciona una mejor difusión de los nutrientes y residuos a través del scaffolds. La adición de cerámica de fosfato de calcio ha sido ampliamente investigada para fabricar scaffolds altamente porosos para la ingeniería de tejidos óseos debido a que presentan una composición muy similar al hueso, incluyendo excelentes propiedades de biocompatibilidad, osteoinductivas y osteoconductoras. Partículas cargadas con proteínas morfogenéticas de hueso distribuidas homogéneamente en el scaffolds podrían asegurar una liberación continua del factor de crecimiento proporcionando de esta forma las señales bioquímicas necesarias para la reparación y regeneración ósea. Los scaffolds cargados con antibióticos pueden proporcionar una liberación sostenida del fármaco en el sitio de interés, así como el mantenimiento de propiedades osteogénicas mejoradas para la regeneración exitosa del hueso. Evitando de esta forma que se alcancen niveles de toxicidad o niveles ineficaces en la zona de interés, así como la aparición de efectos secundarios indeseados en los pacientes que provocan un rechazo a los tratamientos prolongados de fármacos por vía sistemática (vía oral e intravenosa). Otra aplicación biomédica interesante de las membranas electrohiladas es la fabricación de apósitos inteligentes eficientes para el tratamiento de heridas. Para lograr una curación rápida de la herida es necesario desarrollar membranas apropiadas con poros interconectados capaces de prevenir la deshidratación rápida y la penetración de bacterias. Para mantener un ambiente húmedo en el lecho de la herida se necesita una alta capacidad de absorción y una adecuada transmisión de vapor de agua. Además, si la membrana electrohilada presenta propiedades bactericidas facilitará el proceso de curación. El objetivo principal de esta tesis fue el desarrollo mediante electrohilado de membranas fibrosas con las características apropiadas para ser utilizadas en la ingeniería de tejidos óseos o como apósito para heridas. En los Capítulos II al V se plantean una serie de objetivos específicos con el fin de cumplir el objetivo principal. Este documento de tesis se dividió en las siguientes secciones: CAPÍTULO I, corresponde a la introducción general donde se describen los conceptos de biomateriales, scaffolds, ingeniería de tejidos y el objetivo principal de los sistemas de liberación de fármacos. Así como, la clasificación de los biomateriales y la ingeniería de tejidos según el origen de los materiales. Además se ponen de manifiesto todos los factores que deben tenerse en cuenta para desarrollar y aplicar adecuadamente los apósitos para heridas. Se mencionaron las diferentes técnicas utilizadas en la literatura haciendo énfasis en el uso de electrohilado y electropulverización para producir scaffolds o membranas para su uso en la ingeniería del tejido óseo y como apósitos para heridas. CAPÍTULO II, se enfoca en el desarrollo y mejora de andamios 3D capaces de promover una eficiente regeneración ósea junto con la liberación de antibióticos dirigidos para prevenir la colonización de bacterias. El objetivo de este trabajo fue sintetizar y caracterizar un sistema de liberación de fármacos que consiste en nanofibras electrohiladas de policaprolactona (PCL) decoradas con partículas de poli (ácido láctico-coglicólico) (PLGA) cargadas con rifampicina (RFP). Este material debe promover la reparación ósea evitando el deterioro del scaffolds provocado por una infección. Se realizó la evaluación in vitro de la capacidad bactericida del material electrohilado sintetizado contra bacterias Gram positivas (Staphylococcus aureus) y Gram negativas (Escherichia coli), así como su citocompatibilidad en cultivos 3D con osteoblastos humanos. Estos resultados se enviaron a la Revista de farmacia “International Journal of Pharmaceuitics” para su publicación en formato de artículo y está bajo revisión. CAPÍTULO III, se describe la síntesis y caracterización de membranas con estructura de núcleo-envoltura de PCL y acetato de polivinilo (PVAc) obtenidas por electrohilado. Las fibras se cargaron con nanopartículas de hidroxiapatita sintética (HAn) para aumentar la bioactividad de los materiales. Los scaffolds desarrollados se trataron con ablación láser para crear características topográficas deseadas a nivel micrométrico con el objetivo de favorecer la adhesión y crecimiento celular. Todas las membranas obtenidas presentaron una estructura de poros tridimensionalmente interconectados y el tratamiento con láser provocó un aumento en la viabilidad y densidad celular. Además, el aumento en la biocompatibilidad de los scaffolds sugiere que los microporos pequeños favorecen la adhesión y proliferación celular. Estos resultados fueron publicados en el artículo titulado “Laser-treated electrospun fibers loaded with nano-hydroxyapatite for bone tissue engineering”. Javier Aragon, Nuria Navascues, Gracia Mendoza, Silvia Irusta. International Journal of Pharmaceutics 525,112–122, 2017. DOI:10.1016/j.ijpharm.2017.04.022. CAPÍTULO IV, se refiere al desarrollo de un scaffold electrohilado compuesto por fibras con estructura de núcleo-cubierta de PCL o PCL/PVAc cargado con HAn sintética. Estas fibras se decoraron con partículas de PLGA cargadas con proteína morfogenética ósea 2 (BMP2) mediante el uso simultaneo de electrohilado coaxial y electropulverización. El objetivo de este trabajo fue evaluar las propiedades estructurales y físico-químicas así como el proceso de biodegradación de los nuevos scaffolds desarrollados y su capacidad para abordar las características arquitectónicas, bioquímicas y funcionales del tejido óseo. Para esto, se probó la bioactividad del scaffold mediante el cultivo de osteoblastos humanos sobre ellos y se monitoreo de la viabilidad celular durante 4 semanas. Se evaluó la actividad osteogénica in vitro de las células sembradas sobre los scaffolds determinando la actividad de la fosfatasa alcalina (ALP) y la expresión de osteocalcina (OCN) y osteopontina (OPN) como proteínas osteogénicas. Estos resultados fueron publicados en el artículo titulado “Polymeric electrospun scaffolds for bone morphogenetic protein 2 delivery in bone tissue engineering”. Javier Aragón, Simona Salerno, Loredana De Bartolo, Silvia Irusta and Gracia Mendoza. Journal of Colloid and Interface Science, 531 (2018) 126–137. DOI:10.1016/j.jcis.2018.07.029. El CAPÍTULO V, describe la síntesis de un apósito antimicrobiano para heridas, con una resistencia mecánica adecuada que es capaz de absorber exudados y evitar la deshidratación rápida de una herida. Se prepararon membranas asimétricas de PCL/PVAc cargadas con carvacrol (CRV) mediante el uso simultáneo de electrohilado y electropulverización. Las membranas constan de dos capas; la primera es una capa de PCL electrohilado; la segunda, una lámina de PVAc que estaría en contacto con la piel liberando a su vez el compuesto antimicrobiano. Se demostró que el uso de diferentes disolventes pueden dar lugar a la obtención de diferentes morfologías de la capa PVAc-CRV. Los valores obtenidos de elongación máxima de las membranas antes de romperse son adecuados para ser utilizados como apósitos para heridas ya que están en el mismo rango reportado de elongaciones en la piel humana. Las membranas presentan una tasa óptima de Transmisión de vapor de agua (WVTR) con valores que se encuentran en el rango requerido para mantener un buen balance entre humedad y pérdida de agua en la herida. En la primera semana, se liberó más del 60 % del CRV cargado, mientras que después de tres semanas, las membranas liberaron entre el 85 y el 100 % del CRV cargado mediante la contribución de un proceso de difusión de tipo Fickiano y la relajación delas cadenas poliméricas. Las membranas sintetizadas son candidatas potenciales para ser utilizadas como apósitos para heridas. El manuscrito que resume estos resultados se envió a la revista “Materials Science and Engineering C” y está bajo revisión (MSEC_2018_3013). CAPÍTULO VI, resume las conclusiones generales del trabajo de tesis. APÉNDICE 1, describe las principales técnicas de caracterización y los métodos para evaluar diferentes propiedades en función de las posibles aplicaciones. APÉNDICE 2, resume los artículos publicados y la participación en foros científicos durante el período de tesis. 1The current Doctoral Thesis work has been performed under a co-supervision agreement between University of Zaragoza (Home University), University of Calabria (Host University) and Faculty of Sciences and Technology of the NOVA University of Lisbon (FCT NOVA) (Host University). This research has been carried out inside the Erasmus Mundus Doctorate in Membrane Engineering program (EUDIME), (FPA 2011-0014), funded by the European Union. This thesis focused mainly on the use of the electrospinning technique to produce different kind of membranes for biomedical applications. In particular, it described the synthesis and production of inorganic and organic nanoparticles to be used as fillers or as carriers (drug delivery system) as well as the production of electrospun nanofibrous membranes. This work was carried out within the Institute of Nanoscience of Aragon (INA), specifically in the Nanostructured Films and Particles (NFP) group under the supervision of the Professor Silvia Irusta and Dr Gracia Mendoza. Also an important part of the physico-chemical characterization was done at INA.The study of different biological signals and the use of specific techniques for membrane characterization were acquired at the University of Calabria under the supervision of Dr. Loredana De Bartolo in the Institute on Membrane Technology of the National Research Council of Italy (ITM-CNR). On the other hand, the mobility carried out at the Faculty of Sciences and Technology (FCT NOVA) of Universidade NOVA (FCT NOVA) under the supervision of Professor Ana Isabel Aguiar-Ricardo, allowed a total characterization of two asymmetric membranes following different International Standards to accomplish testing for primary wound dressing.The development of novel membranes loaded with morphogenetic proteins or antibiotic are of great interest in the field of bone tissue engineering. To promote the cellular viability and extracellular matrix production, electrospun membranes with enhanced porosity and micro-scale pores could be beneficial since increased porosity and pore size can provide a three-dimensional (3D) environment that not only facilitates cell seeding/diffusion but also provides better diffusion of nutrients and waste throughout the membranes. The addition of calcium phosphate ceramics has been extensively investigated to fabricate highly porous membranes to bone tissue engineering due to their close similar composition of bone, including excellent biocompatibility, osteoinductive and osteoconductive properties. A homogeneous distribution of the bone morphogenetic protein-loaded particles along the entire membrane could be ensuring a continuous release of the growth factor to provide the necessary biochemical cues for bone repair and regeneration.Antibiotic-loaded membranes may provide drug targeted and sustained release, avoiding the long-term oral and intravenous systematic multidrug administration, which implies toxic side effects, low delivery to the target site and low patient adherence to the treatment. Therefore, membranes loaded with antibiotics can overcome the drawbacks of the traditional therapy sustaining enhanced osteogenic properties for the successful regeneration of the bone. Another interesting biomedical application of electrospun membranes is the fabrication of efficient smart dressings for the treatment of wounds. A rapid wound healing requires developing appropriate membranes with interconnected pores that allow the oxygen diffusion and transport of metabolic waste, as well as an adequate pore size to prevent rapid dehydration and bacteria penetration. A high absorption capacity and adequate water vapor transmission will be necessary to keep a moist environment in the wound bed. Besides, if the electrospun membrane has some bactericidal properties will be better for the healing process.The main goal of this thesis was the development of fibrous membranes by electrospinning with the appropriate characteristics to be used in bone tissue engineering or as wound dressing materials. To achieve this target, several specific objectives were defined, which are described in Chapters II to V.The thesis was divided in the following sections: CHAPTER I, is an introduction where the concepts of biomaterials, scaffolds and tissue engineering and the main target of drug delivery systems are described. The chapter includes the classification of biomaterials according to the origin of the materials and tissue engineering is also described as well as all the factors that must be taken into account to develop and properly apply a wound dressing are discussed. Different kind of techniques used in the literature to produce scaffolds or membranes for bone tissue engineering and wound dressings are mentioned, focusing on the use of electrospinning and electrospray to produce them. CHAPTER II, focuses on the development of enhanced 3D membranes able to promote efficient bone regeneration together with targeted antibiotic release to prevent bacteria colonization. The aim of this work was to synthesize and characterize a drug delivery system consisting of polycaprolactone (PCL) electrospun nanofibers decorated with rifampicin (RFP) loaded into poly(lactic-coglicolic acid) (PLGA) particles. This material would promote bone repair avoiding the impairment of the membrane mediated by infection. The bactericidal ability of the synthesized electrospun material was assessed In vitro against gram positive (Staphylococcus aureus) and gram negative (Escherichia coli) bacteria, as well as its cytocompatibility in human osteoblasts 3D cultures. These results are included in the accepted article entitled “Composite scaffold obtained by electro-hydrodynamic technique for infection prevention and treatment in bone repair”. Javier Aragon, Sergio Feoli, Gracia Mendoza, Silvia Irusta. International Journal of Pharmaceutics. CHAPTER III, describes the synthesis and characterization of core-shell membranes of PCL and polyvinyl acetate (PVAc) obtained by electrospinning. The fibers were loaded with synthetic hydroxyapatite nanoparticles (HAn) to increase the bioactivity of the materials. The prepared membranes were then treated by laser ablation to create desired microscale topographical features in order to favor cell adhesion and growth. All prepared membranes exhibited a three-dimensional network structure with interconnected pores; the laser treatment has modified the structural characteristics of the membrane causing an increase the cell viability and cell density. The materials biocompatibility is affected by the structural properties of the membranes, indeed smaller micropore sizes favor cell adhesion and proliferation. These results are published in the article entitled “Laser-treated electrospun fibers loaded with nano-hydroxyapatite for bone tissue engineering”. Javier Aragon, Nuria Navascues, Gracia Mendoza, Silvia Irusta. International Journal of Pharmaceutics 525,112–122, 2017. DOI:10.1016/j.ijpharm.2017.04.022. CHAPTER IV, refers to the development of a composite electrospun membrane of PCL or PCL/PVAc core–shell fibers loaded with synthetic HAn. These fibers were decorated with bone morphogenetic protein 2 (BMP2) loaded in/into PLGA particles via simultaneous electrospraying and coaxial electrospinning. The aim of this study was to evaluate the structural and physico-chemical properties and biodegradation processes of the newly developed membranes assessing their ability to address the architectural, biochemical, and functional features of bone tissue. For this purpose, the membrane bioactivity was tested by culturing human osteoblasts on the membranes and by monitoring cell viability up to 4 weeks. The In vitro osteogenic activity of cells seeded onto the membranes was evaluated by assessing alkaline phosphatase (ALP) activity and the expression of osteogenic proteins osteocalcin (OCN) and osteopontin (OPN). These results are published in the article “Polymeric electrospun scaffolds for bone morphogenetic protein 2 delivery in bone tissue engineering”. Javier Aragón, Simona Salerno, Loredana De Bartolo, Silvia Irusta and Gracia Mendoza. Journal of Colloid and Interface Science, 531 (2018) 126–137. DOI:10.1016/j.jcis.2018.07.029. CHAPTER V, describes the synthesis of an antimicrobial wound dressing material, with appropriate mechanical resistance avoiding rapid dehydration and absorbing exudates. PCL/PVAc asymmetric membranes loaded with carvacrol (CRV) were prepared by electrospinning and electrospraying simultaneously. The membranes consist of two layers: the first is an electrospun PCL sheet, the second a PVAc sheet that would be in contact with the skin releasing the antimicrobial compound. The use of different solvents results in different morphologies for the PVAc-CRV layer. The membranes exhibit mechanical properties with strain to failure values that are in the range of human skin, being adequate to be deposited over a wound surface. The samples present Water Vapor Transmission (WVTR) values in the required range to keep good moisture balance with water loss from the wound at the optimal rate. In the first week, more than 60 % of the loaded CRV was released while after three weeks membranes released between 85 to 100 % of the loaded CRV through a Fickian diffusion and diffusion due to polymer relaxation. The synthesized membranes are potential candidates to be used for wound dressing applications. The manuscript summing up these results has been submitted to a scientific journal and is currently under review. GENERAL CONCLUSIONS, summarizes the conclusions of the thesis work. APPENDIX 1, describes the main characterization techniques and the methods to evaluate different properties according to the possible applications. APPENDIX 2, summarizes the articles published and the participation in scientific forums during the thesis period.<br /
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