Global ETD Search

121	Signaling mechanisms and developmental function of fibroblast growth factor receptors in zebrafish Kolanczyk, Maria Elzbieta 11 May 2009 (has links) Fibroblast growth factor (Fgf) signaling plays multiple inductive roles during development of vertebrates (Itoh 2007). Some Fgfs, such as Fgf8, are locally secreted and signal over a long range to provide positional information in the target tissue (Scholpp and Brand 2004). Fgf ligands signal in a receptor-dependent manner via tyrosine kinase receptors, four of which have been so far identified. Fgf8 signaling was shown to depend both on receptor activation as well as endocytosis. The specificity of Fgf ligands and receptors as well as the function of receptors in the control of the Fgf signaling range have been, however, largely unclear. In this study, we show that the putative Fgf8 receptor Fgfr1 is duplicated in zebrafish and that it acts redundantly in the formation of the posterior mesoderm. Also, in overexpression studies we confirm the notion that receptor endocytosis influences Fgf8 signaling range. Through TILLING mutant recovery and morpholino knockdown studies we also show that Fgfr2 is required for growth and skeletal development in zebrafish, whereas Fgfr4 is required for pectoral fin specification and growth. info:eu-repo/classification/ddc/570 ddc:570
122	Intradermal Delivery of Plasmids Encoding Angiogenic Growth Factors by Electroporation Promotes Wound Healing and Neovascularization Ferraro, Bernadette 20 March 2009 (has links) Gene therapy techniques delivering exogenous angiogenic growth factors, such as vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (FGF-2), are currently being investigated as potential treatments for ischemia resulting from a variety of conditions, such as peripheral artery disease (PAD) and chronic wounds. Despite these intense efforts, a viable clinical option to promote therapeutic neovascularization remains elusive. Electroporation is a simple in vivo method to deliver normally impermeable molecules, such as plasmid DNA, to a variety of tissues including skin and muscle. This study investigated intradermal injection of plasmids encoding angiogenic growth factors with electroporation as a novel therapeutic approach to increase perfusion in areas of ischemia. Two common animal models of ischemia were employed: a skin flap model, used to study wound healing, and a hindlimb ischemia model, used to investigate potential therapies for PAD. In the skin flap model, delivery of plasmid VEGF with electroporation significantly increased VEGF expression for 5 days after delivery compared to injection of the plasmid alone. While the increase in VEGF expression was short-term, it significantly increased expression of the downstream angiogenic growth factor endothelial nitric oxide synthase, as well as perfusion and healing in the distal area of the skin flap. To facilitate the translation of electroporation to the clinic, a novel electrode configuration was previously designed for cutaneous delivery of plasmids to a large surface area. The design of the Multielectrode Array allows for delivery to a large surface area without the need to increase the applied voltage. Conditions for plasmid delivery with this electrode were optimized and it was then utilized to deliver plasmid FGF-2 (pFGF) to the hindlimb ischemia model. FGF-2 expression, perfusion, and angiogenesis were assessed. FGF-2 expression was significantly higher for 10 days after treatment with pFGF with electroporation compared to injection of pFGF alone. This increase in FGF-2 expression induced a significant increase in perfusion and angiogenesis in the ischemic limb. The research presented here suggests intradermal injection of plasmids encoding angiogenic factors by electroporation is a novel potential therapeutic approach to increase perfusion to areas of ischemia and promote wound healing. Gene therapy fibroblast growth factor-2 (FGF-2) angiogenesis wound healing peripheral artery disease ischemia American Studies Arts and Humanities
123	Exploring the role of fibroblast growth factor (FGF) signaling in mouse lens fiber differentiation through tissue-specific disruption of FGF receptor gene family Zhao, Haotian 17 March 2004 (has links) No description available. Biology, Genetics lens development lens epithelium lens fiber differentiation cell cycle proliferation Pax6 c-Maf FGF receptor tyrosine kinase transgenic conditional knockout
124	Preparation of Heparin Surface for Quantification of Fibroblast Growth Factor-2 (FGF-2) Binding Using Surface Plasmon Resonance (SPR) Kirtland, David Rand 17 June 2005 (has links) A mixed self assembling monolayer (mSAM) chip with attached heparin was developed to analyze heparin-protein interactions using a Reichert Inc, SR7000, surface plasmon resonance (SPR) instrument. The heparin was attached via streptavidin-biotin linkage where the streptavidin was covalently coupled to the mSAM and biotinylated heparin bound to it. These chips were then used to quantify the interactions of fibroblast growth factor-2 (FGF-2) with the surface bound heparin. Kinetic rate constants of association and disassociation were calculated. The association data of FGF-2 with heparin was fit to a single compartment, well-mixed model as the data did not exhibit mass transfer limitations. The results suggested that rebinding was prevalent and observed disassociation rates differed significantly in the presence of competing soluble heparin during disassociation. Our results indicate that the Reichert instrument and mSAM chips can be used to analyze heparin-protein interactions but that a careful protocol, outlined in this thesis, should be followed to obtain optimal data. / Master of Science Mixed Self-Assembled Monolayer Mixed Self Assembling Monolayer (mSAM) Surface Plasmon Resonance (SPR) Growth Factor Biosensor Heparin
125	Estudo dos efeitos da LDL (-) na angiogênese modelos in vitro e in vivo / Effects of LDL (-) on angiogenesis in vitro and in vivo models Sangaletti, Laila Abicair 03 March 2008 (has links) Diversas doenças estão associadas com a formação de novos vasos a parti vasos pré-existentes, ou angiogênese. Dentre elas está a aterosclerose (Griffioen & Molema, 2000). Pesquisas recentes demonstram que a hipercolesterolemia, que têm um papel importante na fisiologia da aterosclerose, também pode prejudicar a ação de fatores angiogênicos (Jang et.al., 2000). A hipercolesterolemia que é decorrente de aumento de LDL no plasma ocasiona um aumento no tempo de permanência desta partícula na circulação (Yasunobu, 2001). Contudo, a LDL pode sofrer modificação na circulação, dando origem a uma subfração mais eletronegativa da LDL, a LDL (-). A LDL (-) pode prejudicar cada etapa da angiogênese, desregulando a função endotelial (Tai et. al., 2006). Em nosso estudo, vimos que apesar da LDL (-) ter estimulado a miga celular, esta partícula inibiu a formação de túbulos in vitro. A LDL (-) não foi capa afetar a angiogênese in vivo. / A large number of diseases is associated with formation of new blood vessels out of pre-existing capillaries, or angiogenesis. These diseases include the atherosclerosis (Griffioen & Molema, 2000). Resents researches demonstrate that the hypercholesterolemia, that have a important role in the physiology of the atherosclerosis, can impaired the angiogenesis (Jang et. al., 2000) . The hypercholesterolemia that is decurrente of high levels of LDL in the plasma causes an increase in the time of permanence this particle in the circulation (Yasunobu, 2001). However, the LDL can to suffer modification in the circulation, giving rise to a subfration more eletronegative from LDL, the LDL (-). The LDL (-) could impair each one of the steps of the angiogenesis, thereby dysregulating endothelial function (Tai et. al., 2006). In our study, see that despite the LDL (-) have stimulated the cell migration, this particle inhibited the Tube formation in vitro. The LDL (-) didn\'t affect the angiogenesis in vivo. Angiogênese Angiogenesis Angiopoietinas Angiopoietins Angiostatin Angiostatina Blood vessels (Formation; Study) Células endoteliais (Estudo) Citocinas Cytokine Endostatin Endostatina Endothelial cells (Study) Fatores de crescimento FGF FGF Growth factors LDL (-) LDL (-) LDL oxidada MMP MMP Oxidized LDL TIMP TIMP Vasos sanguíneos (Formação; Estudo) VEGF VEGF
126	The early development of the inner ear: the role of notch and fgf pathways in aerly otic neural versus non-neural patterning Abelló Sumpsi, Gina 25 January 2008 (has links) Otic neuronal precursors are specified in the otic placode but interestingly do so only in the anterior domain of the otic placode, the proneural domain. In the present study, we have explored why only this territory has the competence to undergo neurogenesis, this means the early events of otic proneural regionalization and neural commitment. The proneural and non-neural domains presented complementary gene expression patterns of transcription factors and members of the Notch pathway. Overall, we propose that proneural character is acquired in the anterior territory by the action of localized ectodermal FGF8-FGF10 signaling that enhances Sox3 function. FGF signals through Sox3 activity would be essential for the specification of the proneural domain versus a non-neural territory, while Notch would be involved in refining this early regionalization. / Els precursors neurals de la oïda són especificats dins un subdomini de la placoda acústica, el domini proneural. En aquesta tesis doctoral, s'ha explorat la raó per la qual la competència neural només és adquirida en aquest subdomini. Els dominis neural i no-neural del territori presenten dominis d'expressió genètica complementaris. Aquest treball proposa que el caràcter proneural és adquirit en el subdomini anterior del territori per l'acció de FGF8 i FGF10 localitzats en lï¿½ectoderm ï¿½tic que promouen lï¿½acciï¿½ de Sox3. De manera que, les senyals FGF i lï¿½activitat Sox3 sï¿½n essencials per lï¿½especificaciï¿½ del domini proneural, mentre que la via Notch ï¿½s necessï¿½ria per refinar la regionalitzaciï¿½ final entre un domini neural complementari a un domini no-neural. ratolí peix pollet embrió cultius d'embrió electroporació marcatge cellular Sox3 resctricció de llinatges Notch FGF territori no-neural neurona territori proneural regionalització oída Desenvolupament lineage restrictions embryo culturing cell labelling electroporation DiI mouse zebrafish chick embryo otic placode neurogenesis DAPT Sox3 patterning signaling FGF proneural Notch Development 57 61
127	Patterning of the embryonic vertebrate Brain in Response to Fibroblast Growth Factor Signaling / Fgf-abhängige Musterbildungsprozesse in der embryonalen Entwicklung des Wirbeltiergehirns Raible, Florian 23 June 2003 (has links) (PDF) The term &quot;pattern formation&quot; refers to the process by which order unfolds in development. The present thesis deals with a particular aspect of molecular pattern formation during vertebrate embryogenesis. The model system in the focus of this study is the zebrafish, Danio rerio. In the early developmental phases of the zebrafish, Fibroblast growth factors (Fgfs) are involved in the molecular patterning of various tissues, including two regions of the brain, the forebrain and the midbrain-hindbrain region, affecting cellular processes as diverse as cell proliferation, differentiation, and axonal targeting. The goal of this study was to better understand the mechanisms by which Fgf signaling regulates pattern formation and embryogenesis. I addressed this question on several levels, investigating the extent of intracellular signaling (MAPK activation) relative to sources of Fgf expression, and the transcriptional responses of cells to Fgf signaling during embryogenesis. By a macroarray analysis, I identified putative transcriptional targets of Fgf signaling in late gastrulation, providing a set of molecules that are likely to act as functional players in relaying the patterning information encoded by Fgf signals. Among those are the secreted signaling molecules Chordin and Wnt8, as well as Isthmin, a novel secreted molecule that I found capable to interfere with anterior embryonic patterning. In addition, I identified two ETS domain transcription factors, Erm and Pea3, which constitute bona fide integrators of FgfR signaling. By gain- and loss-of-function studies, I demonstrate that transcript levels of erm and pea3 are tightly regulated by Fgf signaling. Detailed analysis of the expression patterns of erm and pea3 along with other Fgf target genes also provides evidence for a differential read-out of Fgf concentration in the embryo, consistent with a role of Fgf as a vertebrate morphogen. The discovery of novel molecular components downstream of Fgf receptor activity paves a way to characterize previously unknown or underestimated developmental roles of Fgfs in the molecular patterning of the forebrain, the eye and parts of the neural crest. Danio rerio Embryo Fgf Fibroblasten-Wachstumsfaktoren Gehirn MHG Macro-Array Mittel-Hinterhirn-Grenze Musterbildung Screen Signaltransduktion Zebrafisch Zielgene Danio rerio Fgf Fibroblast growth factors MHB brain embryo macro-array midbrain-hindbrain boundary pattern formation screen signal transduction target genes zebrafish ddc:32 rvk:WW 2400 Embryogenese Fibroblastenwachstumsfaktor Gehirn Musterbildung Signaltransduktion Zebrabärbling
128	Estudo dos efeitos da LDL (-) na angiogênese modelos in vitro e in vivo / Effects of LDL (-) on angiogenesis in vitro and in vivo models Laila Abicair Sangaletti 03 March 2008 (has links) Diversas doenças estão associadas com a formação de novos vasos a parti vasos pré-existentes, ou angiogênese. Dentre elas está a aterosclerose (Griffioen & Molema, 2000). Pesquisas recentes demonstram que a hipercolesterolemia, que têm um papel importante na fisiologia da aterosclerose, também pode prejudicar a ação de fatores angiogênicos (Jang et.al., 2000). A hipercolesterolemia que é decorrente de aumento de LDL no plasma ocasiona um aumento no tempo de permanência desta partícula na circulação (Yasunobu, 2001). Contudo, a LDL pode sofrer modificação na circulação, dando origem a uma subfração mais eletronegativa da LDL, a LDL (-). A LDL (-) pode prejudicar cada etapa da angiogênese, desregulando a função endotelial (Tai et. al., 2006). Em nosso estudo, vimos que apesar da LDL (-) ter estimulado a miga celular, esta partícula inibiu a formação de túbulos in vitro. A LDL (-) não foi capa afetar a angiogênese in vivo. / A large number of diseases is associated with formation of new blood vessels out of pre-existing capillaries, or angiogenesis. These diseases include the atherosclerosis (Griffioen & Molema, 2000). Resents researches demonstrate that the hypercholesterolemia, that have a important role in the physiology of the atherosclerosis, can impaired the angiogenesis (Jang et. al., 2000) . The hypercholesterolemia that is decurrente of high levels of LDL in the plasma causes an increase in the time of permanence this particle in the circulation (Yasunobu, 2001). However, the LDL can to suffer modification in the circulation, giving rise to a subfration more eletronegative from LDL, the LDL (-). The LDL (-) could impair each one of the steps of the angiogenesis, thereby dysregulating endothelial function (Tai et. al., 2006). In our study, see that despite the LDL (-) have stimulated the cell migration, this particle inhibited the Tube formation in vitro. The LDL (-) didn\'t affect the angiogenesis in vivo. Angiogênese Angiopoietinas Angiostatina Células endoteliais (Estudo) Citocinas Endostatina Fatores de crescimento FGF LDL (-) LDL oxidada MMP TIMP Vasos sanguíneos (Formação; Estudo) VEGF Angiogenesis Angiopoietins Angiostatin Blood vessels (Formation; Study) Cytokine Endostatin Endothelial cells (Study) FGF Growth factors LDL (-) MMP Oxidized LDL TIMP VEGF
129	Patterning of the embryonic vertebrate Brain in Response to Fibroblast Growth Factor Signaling Raible, Florian 27 June 2003 (has links) The term &quot;pattern formation&quot; refers to the process by which order unfolds in development. The present thesis deals with a particular aspect of molecular pattern formation during vertebrate embryogenesis. The model system in the focus of this study is the zebrafish, Danio rerio. In the early developmental phases of the zebrafish, Fibroblast growth factors (Fgfs) are involved in the molecular patterning of various tissues, including two regions of the brain, the forebrain and the midbrain-hindbrain region, affecting cellular processes as diverse as cell proliferation, differentiation, and axonal targeting. The goal of this study was to better understand the mechanisms by which Fgf signaling regulates pattern formation and embryogenesis. I addressed this question on several levels, investigating the extent of intracellular signaling (MAPK activation) relative to sources of Fgf expression, and the transcriptional responses of cells to Fgf signaling during embryogenesis. By a macroarray analysis, I identified putative transcriptional targets of Fgf signaling in late gastrulation, providing a set of molecules that are likely to act as functional players in relaying the patterning information encoded by Fgf signals. Among those are the secreted signaling molecules Chordin and Wnt8, as well as Isthmin, a novel secreted molecule that I found capable to interfere with anterior embryonic patterning. In addition, I identified two ETS domain transcription factors, Erm and Pea3, which constitute bona fide integrators of FgfR signaling. By gain- and loss-of-function studies, I demonstrate that transcript levels of erm and pea3 are tightly regulated by Fgf signaling. Detailed analysis of the expression patterns of erm and pea3 along with other Fgf target genes also provides evidence for a differential read-out of Fgf concentration in the embryo, consistent with a role of Fgf as a vertebrate morphogen. The discovery of novel molecular components downstream of Fgf receptor activity paves a way to characterize previously unknown or underestimated developmental roles of Fgfs in the molecular patterning of the forebrain, the eye and parts of the neural crest. info:eu-repo/classification/ddc/32 ddc:32
130	Green Anesthesia : Use of Inhalational Anesthetics and their Effect on our Climate / Miljövänlig Anestesi : Användning av inhalationsanestetika och dess påverkan på vårt klimat Karchut, Sabina, Wedahl, Skylar January 2023 (has links) This thesis has, commissioned by Dräger, an international company at the forefront of medical and safety technology, examined how the use of inhalational anesthetics affects the climate and environment. The purpose of this work is to examine how the Swedish healthcare sector currently works with inhalational anesthetics, how different anesthetic machines affect the emissions, as well as alternatives available to reduce anesthetic gases emissions. Climate change is a current issue in today’s society, but the impact of anesthetic gases on the climate is not widely known, despite their everyday use in the healthcare sector. Through data collection from two Swedish hospitals; Linköping University Hospital and Örebro University Hospital, an interview with medical and medical engineering staff, as well as a literature study the main question of the thesis could be answered; How do the most common anesthetic gases affect the environment? The results are presented in the form of diagrams showing the amount of anesthetic gas used in the aforementioned hospitals during surgeries. The results have been analyzed and discussed based on the research questions, and the different results from each hospital have been compared to each other. It can be seen that Dräger’s anesthesia machines have a relatively low consumption of sevoflurane, but it is impossible to draw any definitive conclusions due to lack of data, and lack of access to machines from other manufacturers. / Detta examensarbete har, på uppdrag av Dräger, ett internationellt företag i framkant inom medicin- och säkerhetsteknik, undersökt hur användning av inhalationsanestetika påverkar miljön. Målet med arbetet är att undersöka hur den svenska sjukvården för närvarande arbetar med inhalationsanestetika, hur olika anestesimaskiner påverkar utsläppen, samt alternativ som finns tillgängliga för att minska dessa utsläpp. Klimatförändringar är en aktuell fråga i dagens samhälle men påverkan av anestesigaser på klimatet är inte allmänt känt, trots att dessa används dagligen i hälsovården. Genom datainsamling från två svenska sjukhus; Linköpings Universitetssjukhus och Örebro Universitetssjukhus, intervjuer med medicinsk- och medicinteknisk personal, samt en litteraturstudie har arbetets problemställning besvarats; Hur påverkar de mest frekvent använda anestesigaserna miljön? Resultaten visar i diagramform hur mycket anestesi gas som använts i tidigare nämnda sjukhus under operationer. Resultaten har analyserats och diskuterats utifrån forskningsfrågorna, dessutom har de olika resultaten från respektive sjukhus jämförts med varandra. Det kan ses att Drägers anestesimaskiner har en relativt låg konsumtion av sevofluran, men brist på data samt brist på tillgång till maskiner från andra producenter gör det omöjligt att dra en konkret slutsats. MAC – minimum alveolar concentration GWP – global warming potential CO2 – carbon dioxide N2O – nitrous oxide Low-Flow Anesthesia sevoflurane isoflurane desflurane FGF – fresh gas flow MAC – minimum alveolar concentration GWP – global warming potential CO2 – koldioxid N2O - lustgas Lågflödesanestesi sevofluran isofluran desfluran FGF – färskgasflöde Medical Engineering Medicinteknik

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