Global ETD Search

421	Mechanism of mesenchymal stromal cells secretome-mediated trabecular meshwork regeneration for glaucoma therapy Tebid, Christian Tebid 10 1900 (has links) In open angle glaucoma, dysfunction of the trabecular meshwork (TM) results in impaired aqueous humour outflow leading to an elevated intraocular pressure (IOP) that underlies optic nerve damage and irreversible blindness. Currently, no curative treatment is available for the disease. Indeed, most pharmacological and surgical interventions usually provide only temporary relief from elevated IOP while little progress has been made in targeting the root cause of this disease: correcting the dysfunctional TM. In this context, we hypothesized that regeneration/refunctionalization of the TM may represent an effective therapeutic option to halt disease progression or even reverse the pathologic process. We previously demonstrated in a rat model of glaucoma that the injection of mesenchymal stromal cells (MSCs) cultured under hypoxic conditions or their conditioned media (MSC-CM) into laser-damaged TM area results in tissue regeneration. Injection of MSC or conditioned media in our glaucoma model led to activation and proliferation of ocular progenitor cells culminating in TM regeneration and a decrease in IOP. However, the mechanistic basis for this regenerative process remained elusive. Thus, the aim of this thesis is to elucidate the mechanistic basis of MSC secretome-mediated TM regeneration and the subsequent decrease in IOP. We now demonstrate that injection of hypoxic MSC-CM into laser-induced glaucomatous eyes resulted in massive immune cell recruitment. We also demonstrate that these hypoxic MSC-CM conditioned cells produced pro-regenerative factors in vitro and in vivo. Next, employing a proteomic approach, we identified and verified the pro-regenerative effect of several factors secreted by hypoxic MSC-CM recruited cells, which in turn induced the activation/proliferation of ocular progenitor cells leading to TM regeneration and decreased IOP. Upon individual injection of the purified factors into glaucomatous rat eyes, we observed a partial and delayed but significant decrease in IOP that correlated with an increase in the activation and proliferation of neuronal progenitor cells in the TM area. The co-injection of these factors resulted in a significant decrease in IOP compared with individual factor injection. Importantly, this drop in IOP was associated with restoration of retinal functionality, thus demonstrating the importance of these factors in the TM regeneration process and disease control. The findings presented in this thesis provide a novel acellular therapeutic approach for glaucoma treatment via in situ TM regeneration. Moreover, the knowledge gained here could have a lasting impact on how we induce tissue regeneration in other degenerative diseases and lead to novel therapeutic advances in regenerative medicine. / Dans le glaucome à angle ouvert, le dysfonctionnement du trabéculum (TM), un tissu nécessaire à la filtration de l'humeur aqueuse, entraîne une élévation de la pression intraoculaire (PIO). Ceci cause des lésions au niveau du nerf optique et une cécité irréversible. Présentement, aucun traitement curatif n'a été développé pour cette maladie. Nous émettons l'hypothèse que la régénération et re-fonctionnalisation du trabéculum peut représenter une option thérapeutique efficace pour arrêter ou inverser la progression de la maladie dans de nombreux cas de glaucome. Nous avons précédemment démontré les effets régénérateurs des cellules mésenchymateuses (MSCs) et de leurs milieux conditionnés par l'hypoxie (MSC-CM) dans la régénération du TM suite à un dommage par laser. Ce processus a conduit à l'activation et à la prolifération des cellules progénitrices oculaires résultant en une diminution de la PIO dans un modèle de glaucome induit par laser chez le rat. Cependant, la base mécanistique de ce processus de régénération reste encore inconnue. Ainsi, le but de cette thèse de recherche est d'élucider cette base mécanistique de la régénération du TM médiée par le sécrétome des MSC et la diminution subséquente de la PIO. À cette fin, l'injection de MSC-CM hypoxique dans les yeux glaucomateux induits par laser a entraîné un important recrutement de cellules immunitaires. Sous l’action du MSC-CM, ces cellules produisent des facteurs pro-régénératifs in vitro et in vivo. Ensuite, nous avons utilisé une approche protéomique et vérifié l'effet pro-régénératif des facteurs sécrétés par ces cellules exposées au MSC-CM hypoxique, sur l'activation et la prolifération des cellules progénitrices oculaires et la PIO. Lors de l'injection de ces facteurs chez le rat glaucomateux, nous avons observé une augmentation significative de l'activation et de la prolifération des cellules progénitrices neuronales présentes dans la zone du TM, résultant en une diminution de la PIO. De plus, l’injection combinée de ces facteurs résulte en une diminution synergique importante de la PIO. Cette baisse de la PIO était associée à une restauration de la fonction rétinienne, démontrant ainsi l'importance de ces facteurs dans le processus de régénération du TM et de contrôle de la maladie. Les résultats présentés dans cette thèse pourraient amener à une nouvelle approche thérapeutique acellulaire pour le traitement du glaucome via la régénération du TM. De plus, les connaissances acquises au cours de cette thèse pourraient avoir un impact durable sur la manière d’aborder la régénération tissulaire dans d'autres maladies dégénératives et amener des avancées thérapeutiques nouvelles en médecine régénératrice Glaucome Trabéculum Cellules mésenchymateuses Facteurs paracrins Régénération oculaire Vésicules extracellulaires Glaucoma Trabecular meshwork MSCs MSC-CM Paracrine factors Ocular regeneration Extracellular vesicles
422	Transforming Growth Factor Beta 3-Loaded Decellularized Equine Tendon Matrix for Orthopedic Tissue Engineering Roth, Susanne Pauline, Brehm, Walter, Groß, Claudia, Scheibe, Patrick, Schubert, Susanna, Burk, Janina 09 February 2024 (has links) Transforming growth factor beta 3 (TGF3) promotes tenogenic differentiation and may enhance tendon regeneration in vivo. This study aimed to apply TGF3 absorbed in decellularized equine superficial digital flexor tendon scaffolds, and to investigate the bioactivity of scaffold-associated TGF3 in an in vitro model. TGF3 could effectively be loaded onto tendon scaffolds so that at least 88% of the applied TGF3 were not detected in the rinsing fluid of the TGF3-loaded scaffolds. Equine adipose tissue-derived multipotent mesenchymal stromal cells (MSC) were then seeded on scaffolds loaded with 300 ng TGF3 to assess its bioactivity. Both scaffold-associated TGF3 and TGF3 dissolved in the cell culture medium, the latter serving as control group, promoted elongation of cell shapes and scaffold contraction (p < 0.05). Furthermore, scaffold-associated and dissolved TGF3 affected MSC musculoskeletal gene expression in a similar manner, with an upregulation of tenascin c and downregulation of other matrix molecules, most markedly decorin (p < 0.05). These results demonstrate that the bioactivity of scaold-associated TGF3 is preserved, thus TGF3 application via absorption in decellularized tendon scaffolds is a feasible approach. info:eu-repo/classification/ddc/610 ddc:610
423	A Spin-Coated Thermoresponsive Substrate for Rapid Cell Sheet Detachment and Its Applications in Cardiac Tissue Engineering Patel, Nikul Girishkumar 15 May 2014 (has links) No description available. Biomedical Engineering Biomedical Research rapid cell sheet detachment thermally responsive material Poly N-isopropylacrylamide pNIPAAm aminopropyltriethoxysilane APTES human mesenchcymal stem cells MSC matrix metalloproteinase MMP fibrin infarct
424	Comparison of Computational Modeling of Precision Glass Molding of Infrared Lenses Moghaddas, Mohamad Amin 09 July 2014 (has links) No description available. Engineering Optics
425	Neuer internationaler MSc-Studiengang „Geomatics for Mineral Resource Management“ Benndorf, Jörg 16 July 2019 (has links) Zum Wintersemester 2019/2020 wird an der TU Bergakademie Freiberg ein neuer MSc- Studiengang „Geomatics for Mineral Resource Management“ angeboten. Dieser ist Teil eines internationalen Programmes unter Beteiligung der Universitäten Técnico Lisboa in Portugal, Delft University of Technology in den Niederlanden, TU Bergakademie Freiberg in Deutschland, Montanuniversität Leoben in Österreich sowie Wroclaw University of Science and Technology in Polen. Es ist vorgesehen, ein europaweit sichtbares Programm anzubieten, dass den Studierenden ein flexibles internationales Studium an jeweils zwei der Hochschulen ermöglicht und sie auf Führungsaufgaben im Bereich der Geomatik in der Rohstoffwirtschaft vorbereitet. Der Beitrag fasst das Konzept des internationalen Programmes zusammen und stellt die Möglichkeiten an der TU Freiberg konkret dar. / For the winter term 2019/2020, a new MSc program 'Geomatics for Mineral Resource Management' will be offered at the TU Bergakademie Freiberg. This is part of an international program involving the Universities of Técnico Lisboa in Portugal, Delft University of Technology in the Netherlands, TU Bergakademie Freiberg in Germany, Montanuniversität Leoben in Austria and Wroclaw University of Science and Technology in Poland. The ambition is to offer a Europe-wide visible program that enables students to study internationally flexibly at two of the universities being prepared for a leader role in geomatics for Mineral Resource Management. The article summarizes the concept of the international program and presents the possibilities at the TU Freiberg. info:eu-repo/classification/ddc/550 ddc:550 Markscheidekunde Geoinformatik Rohstoffwirtschaft Studiengang Masterstudium
426	Inhibition of the crosstalk between dendritic, natural killer and T cells by mesenchymal stromal/stem cells Consentius, Christine 24 November 2016 (has links) Mesenchymale Stromazellen (MSC) unterstützen die endogene Geweberegeneration und sind kaum immunogen. Die Mechanismen der Immunmodulation sind kaum bekannt. Diese Arbeit untersucht, ob MSC in die Interaktion von Dendritischen Zellen (DC), Natürlichen Killer (NK) und T Zellen eingreifen, indem sie die DC-Reifung beeinflussen. Das Netzwerk ist wichtig für die Differenzierung naïver T Zellen zu Typ 1 T Helferzellen (Th1). Abhängig vom DC-Subtyp und dem Zeitpunkt des Aufeinandertreffens, beeinflussten Knochenmark-MSC (BM-MSC) die in vitro DC-Reifung verschieden. Sie inhibierten die Differenzierung, aber nicht die Reifung humaner von Monozyten-abgeleiteter DC (moDC). BM MSC hatten keinen klaren Einfluss auf die Reifung plasmazytoider DC (pDC), während sie in aktivierten CD1c+ myeloiden DC (mDC) einen tolerogenen Phänotyp induzierten, charakterisiert durch eine geringere CCR7-abhängige Migration und ein tolerogenes Zytokinprofil. Daraus resultierend, wiesen BM-MSC-geprägte mDC aufgrund der veränderten IL 12/IL 10 Sekretion eine geringere Fähigkeit zur Stimulation der IFNγ Produktion in NK Zellen auf und induzierten weniger Th1 Differenzierung naïver T Zellen. Placenta-derived mesenchymal-like adherent stromal cells (PLX PAD) erzielten ähnliche Ergebnisse. Es konnte keine Alloimmunogenität in Patienten mit kritischer Ischämie der Extremitäten (CLI), die im Rahmen einer Phase I klinischen Studie allogene PLX PAD erhalten hatten, nachgewiesen werden. Keiner der Patienten entwickelte eine signifikante Gedächtnis T Zellantwort spezifisch für das Zellprodukt, was durch unsere in vitro Beobachtungen erklärbar sein könnte. Es ist schwierig MSC im Gewebe nachzuweisen, da Markerkombinationen notwendig sind. CD73+CD90+CD105+CD45-CD34-CD14-CD19- MSC konnten mithilfe einer neuen Multiplex-Immunhistologie-Technik (Chipzytometrie) in humanen Plazentaschnitten detektiert werden. Für die Zukunft könnte damit die Interaktion injizierter MSC mit Immunzellen in Biopsien untersucht werden. / Mesenchymal stromal cells (MSC) support endogenous tissue regeneration and seem to be low immunogenic, allowing application across MHC barriers. But little is known about the mechanisms for their immunomodulation. Hence, the main goal of this study was to understand if MSC interfere with the crosstalk between dendritic cells (DC), natural killer (NK) and T cells by influencing DC maturation. This network is important for efficient priming of naïve T cells into type 1 helper T cells (Th1). Bone marrow-derived MSC (BM-MSC) had diverse effects on DC maturation in vitro, depending on the DC subset and the time of interaction. BM MSC inhibited differentiation but not maturation of monocyte-derived DC (moDC). They did not have a clear effect on maturation of plasmacytoid DC (pDC), whereas they induced a tolerogenic phenotype in activated CD1c+ myeloid DC (mDC), characterized by an impaired CCR7-dependent migration and a tolerogenic cytokine profile. Consequently, BM-MSC-licensed mDC displayed a reduced ability to induce IFNγ production in NK cells due to their altered IL 12/IL 10 secretion. BM MSC-licensed mDC also induced less efficiently Th1 lineage commitment of naïve T cells. Similar results were observed with placenta-derived mesenchymal-like adherent stromal cells (PLX PAD). Samples from critical limb ischemia (CLI) patients treated with MHC-unmatched PLX-PAD within a phase I clinical trial were analysed for alloimmunogenicity. None of the patients developed a significant memory T cell response specific to the allogeneic cells, which might be explainable by our in vitro observations. MSC are difficult to detect in tissues because a set of lineage markers is needed. Here, CD73+CD90+CD105+CD45-CD34-CD14-CD19- MSC could be identified in human placenta cryosections using a novel multiplex-immunohistology technique (chipcytometry), offering the possibility to investigate the crosstalk between injected MSC and attracted immune cells in patient biopsies in the future. IL-10 Immunmodulation Mesenchymale Stromalzellen (MSC) Myeloide dendritische Zellen Natürliche Killer Zellen Th1 Differenzierung IL-10 Immunomodulation Natural killer cells Mesenchymal stromal cells (MSC) Myeloid dendritic cells Th1 priming 570 Biowissenschaften, Biologie 32 Biologie WF 9910 WX 7600 YU 5500 ddc:570
427	Cremona Symmetry in Gromov-Witten Theory / Cremona Symmetry in Gromov-Witten Theory Gholampour, Amin, Karp, Dagan, Payne, Sam 25 September 2017 (has links) We establish the existence of a symmetry within the Gromov-Witten theory of CPn and its blowup along points. The nature of this symmetry is encoded in the Cremona transform and its resolution, which lives on the toric variety of the permutohedron. This symmetry expresses some difficult to compute invariants in terms of others less difficult to compute. We focus on enumerative implications; in particular this technique yields a one line proof of the uniqueness of the rational normal curve. Our method involves a study of the toric geometry of the permutohedron, and degeneration of Gromov-Witten invariants. / En este trabajo establecemos la existencia de una simetra en el marco de la teora de Gromov-Witten para CPn y su explosion a lo largo de puntos. La naturaleza de esta simetra queda codicada en la transformacion de Cremona y su resolucion en una variedad torica del permutoedro. Esta simetra expresa algunos invariantes difciles de calcular junto con otros que no lo son tanto. Nos centramos en implicaciones enumerativas; en particular esta tecnica ofrece una prueba enuna lnea de la unicidad de la curva racional normal. Nuestro metodo involucra un estudio de la geometra torica del permutoedro, as como el de la degeneracion de los invariantes de Gromov-Witten. Gromov-Witten Theory Enumerative Geometry Stationary Invariants Cremona Transform Projective Space Permutohedron Permutohedral Toric Variety Losev-Manin Space Msc(2010): 14n35 14e05 14m25 Teoría de Gromov-Witten Geometría Enumerativa Invariantes Estacionarios Transformación de Cremona Espacio Proyectivo Permutoedro Variadad Tórica Permutoedral Espacio de Losev-Manin Msc(2010): 14n35 14e05 14m25
428	Gene expression of tendon markers in mesenchymal stromal cells derived from different sources Burk, Janina, Gittel, Claudia, Heller, Sandra, Pfeiffer, Bastian, Paebst, Felicitas, Ahrberg, Annette B., Brehm, Walter January 2014 (has links) Background: Multipotent mesenchymal stromal cells (MSC) can be recovered from a variety of tissues in the body. Yet, their functional properties were shown to vary depending on tissue origin. While MSC have emerged as a favoured cell type for tendon regenerative therapies, very little is known about the influence of the MSC source on their properties relevant to tendon regeneration. The aim of this study was to assess and compare the expression of tendon extracellular matrix proteins and tendon differentiation markers in MSC derived from different sources as well as in native tendon tissue. MSC isolated from equine bone marrow, adipose tissue, umbilical cord tissue, umbilical cord blood and tendon tissue were characterized and then subjected to mRNA analysis by real-time polymerase chain reaction. Results: MSC derived from adipose tissue displayed the highest expression of collagen 1A2, collagen 3A1 and decorin compared to MSC from all other sources and native tendon tissue (p < 0.01). Tenascin-C and scleraxis expressions were highest in MSC derived from cord blood compared to MSC derived from other sources, though both tenascin-C and scleraxis were expressed at significantly lower levels in all MSC compared to native tendon tissue (p < 0.01). Conclusions: These findings demonstrate that the MSC source impacts the cell properties relevant to tendon regeneration. Adipose derived MSC might be superior regarding their potential to positively influence tendon matrix reorganization. info:eu-repo/classification/ddc/636 ddc:636 info:eu-repo/classification/ddc/610 ddc:610
429	Thermo-Mechanical Modelling of Wire-Arc Additive Manufacturing (WAAM) of Semi-Finished Products Graf, Marcel, Hälsig, Andre, Höfer, Kevin, Awiszus, Birgit, Mayr, Peter 13 February 2019 (has links) Additive manufacturing processes have been investigated for some years, and are commonly used industrially in the field of plastics for small- and medium-sized series. The use of metallic deposition material has been intensively studied on the laboratory scale, but the numerical prediction is not yet state of the art. This paper examines numerical approaches for predicting temperature fields, distortions, and mechanical properties using the Finite Element (FE) software MSC Marc. For process mapping, the filler materials G4Si1 (1.5130) for steel, and AZ31 for magnesium, were first characterized in terms of thermo-physical and thermo-mechanical properties with process-relevant cast microstructure. These material parameters are necessary for a detailed thermo-mechanical coupled Finite Element Method (FEM). The focus of the investigations was on the numerical analysis of the influence of the wire feed (2.5–5.0 m/min) and the weld path orientation (unidirectional or continuous) on the temperature evolution for multi-layered walls of miscellaneous materials. For the calibration of the numerical model, the real welding experiments were carried out using the gas-metal arc-welding process—cold metal transfer (CMT) technology. A uniform wall geometry can be produced with a continuous welding path, because a more homogeneous temperature distribution results. info:eu-repo/classification/ddc/620 ddc:620
430	Electronic Structure of Transition Metal Dichalcogenides and Molecular Semiconductors Ma, Jie 01 December 2022 (has links) Zweidimensionale (2D) Übergangsmetalldichalcogenide (TMDCs) gehören zu den attraktivsten neuen Materialien für optoelektronische Bauelemente der nächsten Generation. Um die überlegene Funktionalität der mit TMDCs verbundenen Bauelemente zu realisieren, ist ein umfassendes Verständnis ihrer elektronischen Struktur, einschließlich, aber nicht beschränkt auf die Auswirkungen von Defekten auf die elektronischen Eigenschaften und die Ausrichtung der Energieniveaus (ELA) an den TMDCs-Grenzflächen, unerlässlich, aber derzeit nicht ausreichend. Um einen tieferen Einblick in die elektronischen Eigenschaften von TMDCs und den damit verbundenen Grenzflächen in Kombination mit molekularen Halbleitern (MSCs) zu erhalten, untersuchen wir i) die fundamentale Bandstruktur von Monolagen (ML) TMDCs und die durch Schwefelfehlstellen (SVs) induzierte Renormierung der Bandstruktur, um eine solide Grundlage für ein besseres Verständnis der elektronischen Eigenschaften von polykristallinen dünnen Filmen zu schaffen, und ii) die optoelektronischen Eigenschaften ausgewählter MSC/ML-TMDCs-Grenzflächen. Darüber hinaus wird iii) der Einfluss des Substrats auf die elektronischen Eigenschaften einer MSC/ML-TMDC-Grenzfläche untersucht, um das Bauelementedesign zu steuern. Die Charakterisierung erfolgt hauptsächlich durch winkelaufgelöste Photoelektronenspektroskopie (ARPES), ergänzt durch Photolumineszenz (PL), Raman-Spektroskopie, UV-Vis-Absorption, Rastertransmissionselektronenmikroskopie (TEM) und Rasterkraftmikroskopie (AFM). Unsere Ergebnisse tragen zu einem besseren Verständnis der Auswirkungen von Defekten auf ML-TMDC und verwandte Grenzflächen mit MSCs bei, wobei auch die Auswirkungen der Substrate berücksichtigt werden, und sollten dazu beitragen, unser Verständnis des elektronischen Verhaltens in TMDC-verwandten Geräten zu verbessern. / Two-dimensional (2D) transition metal dichalcogenides (TMDCs) are amongst the most attractive emerging materials for next-generation optoelectronic devices. To realize the superior functionality of the TMDCs related devices, a comprehensive understanding of their electronic structure, including but not limited to the impact of defects on the electronic properties and energy level alignment (ELA) at TMDCs interfaces, is essential but presently not sufficient. In an attempt to get a deep insight into the electronic properties of TMDCs and the related interfaces combined with molecular semiconductors (MSCs), we investigate i) the fundamental band structure of monolayer (ML) TMDCs and band structure renormalization induced by sulfur vacancies (SVs), in order to provide a solid foundation for a better understanding the electronic properties of polycrystalline thin films and ii) the optoelectronic properties of selected MSC/ML-TMDC interface. In addition, iii) the impact of the substrate on the electronic properties of the MSC/ML-TMDC interface is investigated for guiding device design. The characterization is mainly performed by using angle-resolved photoelectron spectroscopy (ARPES), with complementary techniques including photoluminescence (PL), Raman spectroscopies, UV-vis absorption, scanning transmission electron microscopy (TEM), and atomic force microscopy (AFM) measurements. Our findings contribute to achieving a better understanding of the impact of defects on ML-TMDC and related interfaces with MSCs considering the substrates’ effect and should help refine our understanding of the electronic behavior in TMDC-related devices. optoelektronischen Eigenschaften Ausrichtung der Energieniveaus Schwefelfehlstellen Renormierung der Bandstruktur MSC/ML-TMDCs-Grenzflächen optoelectronic properties energy level alignment sulfur vacancies band structure renormalization MSC/ML-TMDC interface 541 Physikalische Chemie ddc:541

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