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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
111

Terapias innovadoras basadas en vesículas extracelulares derivadas de células madre mesenquimales modificadas genéticamente

Gómez Ferrer, Marta 02 May 2022 (has links)
[ES] Las células mesenquimales estromales (MSC) poseen una serie de cualidades inmunológicas, pro-angiogénicas y regenerativas que las convierten en un excelente candidato para el tratamiento de diversas patologías. A pesar de las pruebas contundentes obtenidas en modelos preclínicos que demuestran la actividad terapéutica de las MSC, los ensayos clínicos no han podido mostrar hasta ahora un beneficio consistente, probablemente debido a deficiencias metodológicas y a la falta de estandarización, así como a la variabilidad genética intrínseca a los estudios en humanos. Debido a ello, ha sido necesario profundizar en los mecanismos responsables del beneficio terapéutico y rediseñar las estrategias clínicas. En los últimos años, se ha observado que la reparación tisular mediada por las MSC se produce de forma paracrina, y se ha constatado que las vesículas extracelulares (EVs) secretadas por las MSC (EVMSC) son capaces de recapitular las propiedades inmunosupresoras de las células parentales. Además, las estrategias terapéuticas basadas en vesículas tienen grandes ventajas en términos de bioseguridad y producción en condiciones de grado clínico, reduciendo significativamente el coste de dichas terapias. Sin embargo, la dosis efectiva en grandes mamíferos, incluidos los humanos, es bastante elevada y la producción industrial de EVs se ve dificultada en parte, por la senescencia proliferativa que afecta a las MSC durante la expansión celular masiva. En este trabajo hemos intentado solventar los principales escollos de la terapia con EVs incrementando su potencial inmunosupresor y reduciendo por tanto la dosis efectiva. Este incremento se ha conseguido gracias a la sobreexpresión del factor inducible por hipoxia 1-alpha y al desarrollo de un medio de acondicionamiento en cultivo basado en citoquinas. Además, la inmortalización de las células secretoras mediante la transducción del gen de la telomerasa humana ha permitido tanto la estandarización del producto como su producción a gran escala. La eficacia de estas EVs ha sido testada en diferentes poblaciones celulares in vitro: linfocitos T, monocitos, células Natural Killer, macrófagos, células endoteliales y fibroblastos; y en dos modelos de ratón: hipersensibilidad retardada y colitis aguda inducida por TNBS. En conclusión, hemos desarrollado una fuente de EVs de larga duración que secreta grandes cantidades de vesículas con mayor capacidad inmunosupresora y antiinflamatoria, facilitando un producto terapéutico más estándar y fácil de producir para el tratamiento de enfermedades inflamatorias inmunomediadas. / [CA] Les cèl·lules mesenquimals estromals (MSC) posseeixen una sèrie de qualitats immunològiques, pro-angiogèniques i regeneratives que les converteixen en un excel·lent candidat per al tractament de diverses patologies. Tot i les proves contundents obtingudes en models preclínics que demostren l'activitat terapèutica de les MSC, els assaigs clínics no han pogut mostrar fins ara un benefici consistent, probablement degut a deficiències metodològiques i a la manca d'estandardització, així com a la variabilitat genètica intrínseca als estudis en humans. A causa d'això, ha calgut aprofundir en els mecanismes responsables del benefici terapèutic i redissenyar les estratègies clíniques. En els últims anys, s'ha observat que la reparació tissular intervinguda per les MSC es produeix de forma paracrina, i s'ha constatat que les vesícules extracel·lulars (EVs) secretades per les MSC (EVMSC) són capaços de recapitular les propietats immunosupressores de les cèl·lules parentals. A més, les estratègies terapèutiques basades en vesícules tenen grans avantatges en termes de bioseguretat i producció en condicions de grau clínic, reduint significativament el cost d'aquestes teràpies. No obstant això, la dosi efectiva en grans mamífers, inclosos els humans, és bastant elevada i la producció industrial de les EVs es veu dificultada en part, per la senescència proliferativa que afecta les MSC durant l'expansió cel·lular massiva. En aquest treball hem intentat solucionar els principals esculls de la teràpia amb EVs incrementant el seu potencial immunosupressor i reduint per tant la dosi efectiva. Aquest increment s'ha aconseguit gràcies a la sobreexpressió del factor induïble per hipòxia 1-alpha i a el desenvolupament d'un mitjà de condicionament en cultiu basat en citoquines. A més, la immortalització de les cèl·lules secretores mitjançant la transducció del gen de la telomerasa humana ha permès tant l'estandardització del producte com la seva producció a gran escala. L'eficàcia d'aquestes EVs ha estat testada en diferents poblacions cel·lulars in vitro: limfòcits T, monòcits, cèl·lules Natural Killer, macròfags, cèl·lules endotelials i fibroblasts; i en dos models de ratolí: hipersensibilitat retardada i colitis aguda induïda per TNBS. En conclusió, hem desenvolupat una font de EVs de llarga durada que secreta grans quantitats de vesícules amb major capacitat immunosupressora i antiinflamatòria, facilitant un producte terapèutic més estàndard i fàcil de produir per al tractament de malalties inflamatòries inmunomediades. / [EN] Mesenchymal stromal cells (MSC) possess several immunological, pro-angiogenic and regenerative qualities that make them an excellent candidate for the treatment of various pathologies. Despite compelling evidence from preclinical models demonstrating the therapeutic activity of MSCs, clinical trials have so far failed to show consistent benefit, probably due to methodological shortcomings and lack of standardisation, as well as the genetic variability intrinsic to human studies. As a result, it has been necessary to further investigate the mechanisms responsible for therapeutic benefit and to redesign clinical strategies. In recent years, it has been observed that MSC-mediated tissue repair occurs in a paracrine pathway, and it has been confirmed that extracellular vesicles (EVs) secreted by MSC (EVMSC) are able to recapitulate the immunosuppressive properties of the parental cells. Moreover, vesicle-based therapeutic strategies have great advantages in terms of biosafety and production under clinical-grade conditions, significantly reducing the cost of such therapies. However, the effective dose in large mammals, including humans, is quite high and the industrial production of EVs is hampered in part by the proliferative senescence that affects MSC during massive cell expansion. In this work, we have attempted to overcome the main challenges of EVs therapy by increasing their immunosuppressive potential and thus reducing the effective dose. This increase has been achieved by overexpression of hypoxia-inducible factor 1-alpha and the development of a cytokine-based culture conditioning medium. In addition, immortalization of secretory cells by transduction with the human telomerase gene has allowed both product standardisation and large-scale production. The efficacy of these EVs has been tested in different cell populations in vitro: T lymphocytes, monocytes, Natural Killer cells, macrophages, endothelial cells and fibroblasts; and in two mouse models: delayed-type hypersensitivity and TNBS-induced acute colitis. In conclusion, we have developed a long-lasting source of EVs that secretes large amounts of vesicles with enhanced immunosuppressive and anti-inflammatory capacity, providing a more standard and easier-to-produce therapeutic product for the treatment of immune-mediated inflammatory diseases. / Gómez Ferrer, M. (2022). Terapias innovadoras basadas en vesículas extracelulares derivadas de células madre mesenquimales modificadas genéticamente [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/182560
112

A Comparative Analysis of the Biomechanics and Biochemistry of Cell-Derived and Cell-Remodeled Matrices: Implications for Wound Healing and Regenerative Medicine

Ahlfors, Jan-Eric Wilhelm 03 May 2004 (has links)
The purpose of this research was to study the synthesis and remodeling of extracellular matrix (ECM) by fibroblasts with special emphasis on the culture environment (media composition and initial ECM composition) and the resulting mechanical integrity of the ECM. This was investigated by culturing fibroblasts for 3 weeks in a variety of culture conditions consisting of collagen gels, fibrin gels, or media permissive to the self-production of ECM (Cell-Derived Matrix), and quantifying the mechanics of the resulting ECM. The mechanical characteristics were related to the biochemistry of the resulting ECM, notably in terms of collagen accumulation and collagen fibril diameters. The ultimate tensile strength (UTS) of the collagen gels and fibrin gels at the end of the 3-week period was 168.5 ± 43.1 kPa and 133.2 ± 10.6 kPa, respectively. The ultimate tensile strength of the cell-derived matrices was 223.2 ± 9 kPa, and up to 697.1 ± 36.1 kPa when cultured in a chemically-defined medium that was developed for the rapid growth of matrix in a more defined environment. Normalizing the strength to collagen density resulted in a UTS / Collagen Density in these groups of 6.4 ± 1.9 kPa/mg/cm3, 25.9 ± 2.4 kPa/mg/cm3, 14.5 ± 1.1 kPa/mg/cm3, and 40.0 ± 1.9 kPa/mg/cm3, respectively. Cells were synthetically more active when they produced their own matrix than when they were placed within gels. The resulting matrix was also significantly stronger when it was self-produced than when the cells rearranged the matrix within gels that corresponded to a significantly larger fraction of non-acid and pepsin extractable collagen. These studies indicate that cell-derived matrices have potential both as in vitro wound healing models and as soft connective tissue substitutes.
113

Diluted antibiotics for treating traumatized immature teeth

Sabrah, Ala'a Hussein Aref, 1984- January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Endodontic regeneration (ERP) has been successfully used in the treatment of traumatized immature teeth. The procedure has three essential steps: disinfecting the root canal (i.e. triple antibiotic paste (TAP) or double antibiotic paste (DAP)), provoking bleeding inside the canal to form a scaffold upon which pulp stem cells will be deposited and continue root growth, and creating a good coronal seal. Previous research has reported that antibiotic pastes (TAP and DAP) are cytotoxic to stem cells in the concentrations commonly used in endodontic regeneration (1000 mg/mL). To decrease the adverse effects on stem cells and increase the rate of success of the regeneration, defining appropriate antibiotic concentrations for ERP is critical. In this project, five in-vitro experiments were conducted to determine the breakpoint dilutions of both TAP and DAP medicaments, and to prepare a suitable novel pastes containing diluted TAP or DAP medicaments for ERP. In the first experiment, we compared the antibacterial effect of TAP, and DAP against early biofilm formation of Enterococcus faecalis (E. faecalis) and Porphyromonas gingivalis bacteria. In the second study, we investigated the antibacterial effect of various dilutions of TAP and DAP antibiotic medicaments against established E. faecalis biofilm. In the third experiment, we investigated longitudinally the residual antibacterial activity of human radicular dentin treated with 1000, 1 or 0.5 mg/ml of TAP and DAP. In the fourth study, we investigated the cytotoxic effect of various dilutions of TAP and DAP antibiotic medicaments on the survival of human dental pulp stem cells (DPSC). And in the fifth experiment, we investigated the antibacterial and cytotoxic effect of novel intracanal medicaments consisting of methylcellulose (MC) and/or propylene glycol (PG) mixed with 1mg/ml of TAP or DAP. 1 mg/ml of DAP or TAP medicaments had a significant antibacterial effect against early bacterial biofilm formation, and established bacterial biofilm. Furthermore, 1 mg/ml had a residual antibacterial activity comparable to 1000 mg/ml. The novel intracanal medicaments had comparable antibacterial effect to currently used medicaments (1000 mg/ml). Additionally, the novel intracanal medicaments significantly enhanced DPSC metabolic activity, compared to currently used medicaments in endodontic regeneration procedures.
114

Nerve guides manufactured from photocurable polymers to aid peripheral nerve repair

Pateman, C.J., Harding, A.J., Glen, A., Taylor, C.S., Christmas, C.R., Robinson, P.P., Rimmer, Stephen, Boissonade, F.M., Claeyssens, F., Haycock, J.W. 2015 February 1914 (has links)
Yes / The peripheral nervous system has a limited innate capacity for self-repair following injury, and surgical intervention is often required. For injuries greater than a few millimeters autografting is standard practice although it is associated with donor site morbidity and is limited in its availability. Because of this, nerve guidance conduits (NGCs) can be viewed as an advantageous alternative, but currently have limited efficacy for short and large injury gaps in comparison to autograft. Current commercially available NGC designs rely on existing regulatory approved materials and traditional production methods, limiting improvement of their design. The aim of this study was to establish a novel method for NGC manufacture using a custom built laser-based microstereolithography (muSL) setup that incorporated a 405 nm laser source to produce 3D constructs with approximately 50 mum resolution from a photocurable poly(ethylene glycol) resin. These were evaluated by SEM, in vitro neuronal, Schwann and dorsal root ganglion culture and in vivo using a thy-1-YFP-H mouse common fibular nerve injury model. NGCs with dimensions of 1 mm internal diameter x 5 mm length with a wall thickness of 250 mum were fabricated and capable of supporting re-innervation across a 3 mm injury gap after 21 days, with results close to that of an autograft control. The study provides a technology platform for the rapid microfabrication of biocompatible materials, a novel method for in vivo evaluation, and a benchmark for future development in more advanced NGC designs, biodegradable and larger device sizes, and longer-term implantation studies.

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