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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.
11

How Does a Single Cell Know When the Liver Has Reached Its Correct Size?

Hohmann, Nadine, Weiwei, Wei, Dahmen, Uta, Dirsch, Olaf, Deutsch, Andreas, Voss-Böhme, Anja 14 July 2014 (has links) (PDF)
The liver is a multi-functional organ that regulates major physiological processes and that possesses a remarkable regeneration capacity. After loss of functional liver mass the liver grows back to its original, individual size through hepatocyte proliferation and apoptosis. How does a single hepatocyte ‘know’ when the organ has grown to its final size? This work considers the initial growth phase of liver regeneration after partial hepatectomy in which the mass is restored. There are strong and valid arguments that the trigger of proliferation after partial hepatectomy is mediated through the portal blood flow. It remains unclear, if either or both the concentration of metabolites in the blood or the shear stress are crucial to hepatocyte proliferation and liver size control. A cell-based mathematical model is developed that helps discriminate the effects of these two potential triggers. Analysis of the mathematical model shows that a metabolic load and a hemodynamical hypothesis imply different feedback mechanisms at the cellular scale. The predictions of the developed mathematical model are compared to experimental data in rats. The assumption that hepatocytes are able to buffer the metabolic load leads to a robustness against short-term fluctuations of the trigger which can not be achieved with a purely hemodynamical trigger.
12

Mechanische und pharmakologische Organkonditionierung im Rahmen warmer Leberischämie

Glanemann, Matthias 24 May 2005 (has links)
In der vorliegenden Arbeit wurden zwei Verfahren untersucht, die eine erfolgreiche Protektion vor hepatischer Ischämie/Reperfusionsschädigung versprachen: ischämische Präkonditionierung (IP) und pharmakologische Konditionierung mit Methylprednisolon (MP). Dabei wurde zunächst das Ausmaß der hepatozellulären Schädigung nach warmer Leberischämie durch Abklemmen der blutzuführenden Gefäße im Ligamentum hepatoduodenale (Pringle-Manöver) analysiert, wobei beide Behandlungsstrategien eine vergleichbar starke Gewebsprotektion erzielten. Nach 70%-iger Leberteilresektion mit Pringle-Manöver war jedoch trotz reduzierter Ischämie/Reperfusionsschädigung die Leberregeneration nach IP-Behandlung nachhaltig eingeschränkt. Im Gegensatz dazu waren die regenerativen Vorgänge nach MP-Behandlung nicht schneller, aber doch mit einer vergleichbaren Kinetik zu unbehandelten, ischämischen Kontrollen abgelaufen. Zusammenfassend gilt, daß sowohl IP- als auch MP-Behandlung die Ischämie/Reperfusionsschädigung deutlich reduzieren. Dies hat jedoch keinen positiven Einfluß auf die nachfolgende Regeneration nach Leberteilresektion mit Pringle-Manöver. / The present study analyses two strategies to protect from hepatic ischemia-reperfusion injury: ischemic preconditioning (IP) and pharmacologic administration of methylprednisolone (MP). First, the extent of hepatocellular damage after warm liver ischemia induced by cross clamping of the hepatic vessels in the hepatoduodenal ligament (Pringle manöver) was analysed demonstrating comparable tissue protection by both treatment modalities. After 70% partial hepatectomy including Pringle manöver however, the hepatocellular regerneration was markedly decreased after IP treatment, despite reduced ischemia-reperfusion injury. Moreover, MP treatment did not improve hepatic regeneration since it showed a comparable timing to untreated, ischemic controls. In conclusion, both IP and MP significantly reduced hepatic ischemia-reperfusion injury. However, no beneficial effects on hepatocellular regeneration after partial hepatectomy including pringle manöver were observed.
13

Serial Analysis of Gene Expression of Rat Liver Regeneration by Oval Hepatic Stem Cells / Serielle Analyse der Genexpression während der Rattenleberregeneration durch Ovalstammzellen

Cimica, Velasco 05 November 2004 (has links)
No description available.
14

Regulation of gene expression of hepcidin and of other proteins of the iron metabolism in the liver and in the extrahepatic tissues: in vivo and in vitro studies in different rat models. / Die Regelung der Genexpression von Hepcidin und anderen Proteinen des Eisen-stoffwechsels in der Leber und in extrahepatischen Geweben: in vivo und in vitro Studien in verschiedenen Rattenmodellen.

Sheikh, Nadeem 31 October 2006 (has links)
No description available.
15

How Does a Single Cell Know When the Liver Has Reached Its Correct Size?

Hohmann, Nadine, Weiwei, Wei, Dahmen, Uta, Dirsch, Olaf, Deutsch, Andreas, Voss-Böhme, Anja 14 July 2014 (has links)
The liver is a multi-functional organ that regulates major physiological processes and that possesses a remarkable regeneration capacity. After loss of functional liver mass the liver grows back to its original, individual size through hepatocyte proliferation and apoptosis. How does a single hepatocyte ‘know’ when the organ has grown to its final size? This work considers the initial growth phase of liver regeneration after partial hepatectomy in which the mass is restored. There are strong and valid arguments that the trigger of proliferation after partial hepatectomy is mediated through the portal blood flow. It remains unclear, if either or both the concentration of metabolites in the blood or the shear stress are crucial to hepatocyte proliferation and liver size control. A cell-based mathematical model is developed that helps discriminate the effects of these two potential triggers. Analysis of the mathematical model shows that a metabolic load and a hemodynamical hypothesis imply different feedback mechanisms at the cellular scale. The predictions of the developed mathematical model are compared to experimental data in rats. The assumption that hepatocytes are able to buffer the metabolic load leads to a robustness against short-term fluctuations of the trigger which can not be achieved with a purely hemodynamical trigger.
16

Análise da expressão de laminina durante o transplante de células mononucleares de medula óssea em ratos hepatectomizados / Analysis of expression of laminin during transplantation of bone marrow mononuclear cells in hepatectomized rats

Simone Nunes de Carvalho 15 January 2008 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A medula óssea adulta possui duas populações de células-tronco importantes no tratamento de diversas doenças hepáticas: células-tronco hematopoiéticas (CTHs) e células-tronco mesenquimais. A regeneração do fígado após a hepatectomia é um processo complexo que requer a proliferação de todas as células hepáticas. Fatores de crescimento, citocinas e componentes da matriz extracelular são elementos-chave nesse processo. As lamininas são uma família de proteínas de matriz extracelular, com funções adesivas e quimiotáticas pelo recrutamento de integrinas e outros receptores de superfície celular. No fígado normal, a laminina é expressa nas veias porta e centrolobular. O objetivo desse estudo foi investigar a expressão de laminina durante a regeneração hepática induzida por hepatectomia parcial e após o transplante de células mononucleares de medula óssea. As células mononucleares de medula óssea foram obtidas dos fêmures e tíbias de ratos, isoladas, marcadas com DAPI e injetadas pela veia porta em ratos recém-hepatectomizados. Os fígados foram coletados 15 minutos, 1 dia e 3 dias após a hepatectomia e o transplante de células de medula óssea e congelados. Os cortes foram imunomarcados com anticorpos primários anti-CD34 e anti-laminina de rato e observados em microscópio confocal de varredura a laser. Os resultados mostraram que 15 minutos após a hepatectomia parcial, as células-tronco hematopoiéticas CD34+ transplantadas foram encontradas em contato com a laminina localizada nas veias porta e centrolobular, indicando que a laminina poderia participar na adesão inicial das células-tronco a esses vasos logo após o seu transplante. Além disso, 1 e 3 dias após a hepatectomia, as células mononucleares de medula óssea transplantadas foram observadas nos sinusóides hepáticos expressando laminina. Esses resultados sugerem que a laminina pode ser um componente da matriz extracelular importante para a adesão e enxerto de células de medula óssea no fígado após uma lesão. Nós também analisamos a expressão de osteopontina (OPN) em células de medula óssea e CTHs. Os resultados por microscopia confocal demonstraram que a maioria das células mononucleares de medula óssea recém-isoladas expressa quantidades variáveis de OPN. Além disso, algumas CTHs CD34+ também expressam OPN. Após 1 e 4 dias de cultura, observamos uma diminuição de células expressando CD34, e um aumento na expressão de OPN pelas células mononucleares de medula óssea. / The adult bone marrow retains two populations of stem cells with emerging importance for the treatment of diverse liver diseases: hematopoietic stem cells (HSCs) and mesenchymal stem cells. Liver regeneration after partial hepatectomy is a complex process that requires the proliferation of all hepatic cells. Growth factors, cytokines and extracellular matrix molecules are key elements in this process. Laminins are a family of heterotrimeric extracellular matrix proteins with adhesive and chemotactic functions, through recruitment of integrins and other cell surface receptors. In the normal liver, laminin is expressed in portal and centrolobular veins. The aim of this study was to investigate laminin expression during liver regeneration induced by partial hepatectomy and after bone marrow mononuclear cells transplantation. Rat bone marrow mononuclear cells were obtained from tibias and femurs, isolated, stained with DAPI and injected in immediately hepatectomyzed rats via portal vein. Livers were collected 15 minutes, 1 day and 3 days after hepatectomy and bone marrow cells transplantation and frozen. Liver sections were immunolabeled with mouse anti-rat CD34 and rabbit anti-rat laminin primary antibodies and observed under a Laser Scanning Confocal Microscope. Results showed that 15 minutes after partial hepatectomy, transplanted CD34+ HSCs were found in contact with laminin, which was localized principally in portal and centrolobular veins of rat livers, indicating that laminin could participate in stem cell initial attachment to these vessels soon after their transplantation. Furthermore, 1 and 3 days after hepatectomy, transplanted bone marrow mononuclear cells were found in the hepatic sinusoids expressing laminin. These results suggest that laminin could be an important extracellular matrix component for bone marrow cell adhesion and grafting in the injured liver. We also analyzed osteopontin (OPN) expression in bone marrow mononuclear cells and HSCs. Results by confocal microscopy showed that the most freshly isolated bone marrow mononuclear cells express variable amounts of OPN. Furthermore, some CD34+ HSCs also expressed OPN. After 1 and 4 days in culture, we observed a decrease in CD34+ cells, and an increase in OPN expression in bone marrow mononuclear cells.
17

Análise da expressão de laminina durante o transplante de células mononucleares de medula óssea em ratos hepatectomizados / Analysis of expression of laminin during transplantation of bone marrow mononuclear cells in hepatectomized rats

Simone Nunes de Carvalho 15 January 2008 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A medula óssea adulta possui duas populações de células-tronco importantes no tratamento de diversas doenças hepáticas: células-tronco hematopoiéticas (CTHs) e células-tronco mesenquimais. A regeneração do fígado após a hepatectomia é um processo complexo que requer a proliferação de todas as células hepáticas. Fatores de crescimento, citocinas e componentes da matriz extracelular são elementos-chave nesse processo. As lamininas são uma família de proteínas de matriz extracelular, com funções adesivas e quimiotáticas pelo recrutamento de integrinas e outros receptores de superfície celular. No fígado normal, a laminina é expressa nas veias porta e centrolobular. O objetivo desse estudo foi investigar a expressão de laminina durante a regeneração hepática induzida por hepatectomia parcial e após o transplante de células mononucleares de medula óssea. As células mononucleares de medula óssea foram obtidas dos fêmures e tíbias de ratos, isoladas, marcadas com DAPI e injetadas pela veia porta em ratos recém-hepatectomizados. Os fígados foram coletados 15 minutos, 1 dia e 3 dias após a hepatectomia e o transplante de células de medula óssea e congelados. Os cortes foram imunomarcados com anticorpos primários anti-CD34 e anti-laminina de rato e observados em microscópio confocal de varredura a laser. Os resultados mostraram que 15 minutos após a hepatectomia parcial, as células-tronco hematopoiéticas CD34+ transplantadas foram encontradas em contato com a laminina localizada nas veias porta e centrolobular, indicando que a laminina poderia participar na adesão inicial das células-tronco a esses vasos logo após o seu transplante. Além disso, 1 e 3 dias após a hepatectomia, as células mononucleares de medula óssea transplantadas foram observadas nos sinusóides hepáticos expressando laminina. Esses resultados sugerem que a laminina pode ser um componente da matriz extracelular importante para a adesão e enxerto de células de medula óssea no fígado após uma lesão. Nós também analisamos a expressão de osteopontina (OPN) em células de medula óssea e CTHs. Os resultados por microscopia confocal demonstraram que a maioria das células mononucleares de medula óssea recém-isoladas expressa quantidades variáveis de OPN. Além disso, algumas CTHs CD34+ também expressam OPN. Após 1 e 4 dias de cultura, observamos uma diminuição de células expressando CD34, e um aumento na expressão de OPN pelas células mononucleares de medula óssea. / The adult bone marrow retains two populations of stem cells with emerging importance for the treatment of diverse liver diseases: hematopoietic stem cells (HSCs) and mesenchymal stem cells. Liver regeneration after partial hepatectomy is a complex process that requires the proliferation of all hepatic cells. Growth factors, cytokines and extracellular matrix molecules are key elements in this process. Laminins are a family of heterotrimeric extracellular matrix proteins with adhesive and chemotactic functions, through recruitment of integrins and other cell surface receptors. In the normal liver, laminin is expressed in portal and centrolobular veins. The aim of this study was to investigate laminin expression during liver regeneration induced by partial hepatectomy and after bone marrow mononuclear cells transplantation. Rat bone marrow mononuclear cells were obtained from tibias and femurs, isolated, stained with DAPI and injected in immediately hepatectomyzed rats via portal vein. Livers were collected 15 minutes, 1 day and 3 days after hepatectomy and bone marrow cells transplantation and frozen. Liver sections were immunolabeled with mouse anti-rat CD34 and rabbit anti-rat laminin primary antibodies and observed under a Laser Scanning Confocal Microscope. Results showed that 15 minutes after partial hepatectomy, transplanted CD34+ HSCs were found in contact with laminin, which was localized principally in portal and centrolobular veins of rat livers, indicating that laminin could participate in stem cell initial attachment to these vessels soon after their transplantation. Furthermore, 1 and 3 days after hepatectomy, transplanted bone marrow mononuclear cells were found in the hepatic sinusoids expressing laminin. These results suggest that laminin could be an important extracellular matrix component for bone marrow cell adhesion and grafting in the injured liver. We also analyzed osteopontin (OPN) expression in bone marrow mononuclear cells and HSCs. Results by confocal microscopy showed that the most freshly isolated bone marrow mononuclear cells express variable amounts of OPN. Furthermore, some CD34+ HSCs also expressed OPN. After 1 and 4 days in culture, we observed a decrease in CD34+ cells, and an increase in OPN expression in bone marrow mononuclear cells.

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