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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.
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Showing 11 to 20 of 22 (0.016 seconds)| 11 |
Untersuchung zur Verzögerung der terminalen Niereninsuffizienz durch die Therapie mit ACE-Hemmern bei Patienten mit Alportsyndrom in Belgien und Spanien / Analysis of delayed end-stage renal failure through ACE-Inhibitors in Alport syndrome: Study on patients from Belgium and SpainStietz, Susanne Elisabeth 13 March 2012 (has links)
No description available.
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Nidogen-2 in der Pathogenese Kollagen IV-assoziierter Nephropathien bei zusätzlicher Podocin-Mutation / Nidogen-2 in the pathogenesis of collagen IV-related nephropathies with additional podocin mutationPrinz, Carolin Susanne 16 November 2016 (has links)
Kollagen IV assoziierte Nephropathien sind hereditäre Erkrankungen, die die glomeruläre Basalmembran betreffen. Homozygote Aberrationen des COL4A3- oder des COL4A4-Gens zeigen wie X-chromosomal dominant vererbte Mutationen des COL4A5-Gens das klinische Bild des Alport-Syndroms mit frühzeitigem terminalem Nierenversagen. Heterozygote COL4A3-Mutationen sind ursächlich für die benigne familiäre Hämaturie. Ein zusätzlicher Polymorphismus in Nphs2, welches das Schlitzmembranprotein Podocin kodiert, könnte hierbei zu einem aggravierten Krankheitsverlauf führen. Um diese These zu überprüfen, ist eine Analyse des glomerulären Filters, bestehend aus glomerulärer Basalmembran, der zwischen den Podozytenfüßen liegenden Schlitzmembran und Kapillarendothel notwendig. Nidogen-2 ist als Verbindungsprotein essenzieller Bestandteil der glomerulären Basalmembran. Die Ergebnisse der Untersuchungen des Proteins in der Basalmembran COL4A3 heterozygoter Mäuse mit zusätzlichem Podocin-Polymorphismus wichen stark von denen bei einfach COL4A3 heterozygoten Tieren ab. Es ergeben sich daher anhand von Nidogen-2 Hinweise, dass eine Mutation in Nphs2 den Krankheitsverlauf Kollagen IV assoziierter Erkrankungen modifizieren könnte.
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Die Interaktion zwischen der glomerulären Basalmembran und der Schlitzmembran im col43+/-/nphs2+/R140Q-Tiermodell / The interaction between the glomerular basement membrane and the slit diaphragm in the col4a3+/-/nphs2+/R140Q-animal modelGrönemeyer, Lisa-Lena 04 October 2011 (has links)
No description available.
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Erkennung diagnostischer Frühmarker der Nierenfibrose beim Tiermodell des Alport-Syndroms mittels proteomischer Methoden / Detection of early diagnostic markers in an animal model of Alport syndrome with renal fibrosis via proteomicsSchmidt-Eylers, Imke 22 April 2013 (has links)
Das Alport-Syndrom ist eine erbliche, progredient verlaufende Nierenerkrankung, bei der es infolge von charakteristischen Veränderungen der glomerulären Basalmembran zu Hämaturie und Proteinurie kommt. Es gelangen Proteine in den Urin, welche die Erkrankung möglicherweise frühzeitig anzeigen können. In diesem Projekt soll der Urin von Wildtyp- und COL4A3-Knockout-Mäusen zum Zeitpunkt von 4,5 und 6 Wochen untersucht werden. Ziel ist es, diagnostische Proteinmarker zu finden, die im Urin von Alport-Mäusen klinisch relevant hochreguliert sind. Zur Erreichung dieses Ziels wird sich proteomischer Verfahren, Western-Blot und histologischer Schnitte bedient.
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Die Bedeutung der glomerulären Basalmembrankomponente Nidogen-1 bei podozytären Erkrankungen der Niere / The significance of the glomerular basement membrane component nidogen-1 in podocytic kidney diseasesSpieker, Christine 12 June 2017 (has links)
No description available.
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Veränderung der Nierenfunktion, des Proteoms und des Phosphorylierungsstatus der Proteine bei Alport-Mäusen unter Mycophenolat-Mofetil / Changes in kidney function, proteom and phoshorylation status of proteins in Alport COL4A3-deficient mice caused by mycophenolat mofetilLuchs, Klaus 30 November 2016 (has links)
No description available.
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Characterization of the mutation causative for autosomal recessive hereditary nephropathy in the english cocker spaniel and analysis of gene expression in multiple models of hereditary nephropathyDavidson, Ashley Greene 15 May 2009 (has links)
The domestic dog, Canis familiaris, has over 450 naturally occurring inherited diseases. Over half of these diseases are clinically similar to human diseases making the dog an excellent model in which to study human hereditary diseases. Alport syndrome (AS), a group of heterogeneous, hereditary renal diseases, is one example of such a human disease. The disease is transmitted in three fashions: X-linked, autosomal recessive, and autosomal dominant. AS is caused by mutations in COL4α3, COL4α4 or COL4α5, all members of the type IV collagen family. The proteins products of these genes along with those of the other type IV collagen family members (COL4α1, COL4α2, and COL4α6) are structural components of basement membranes throughout the body. This dissertation describes the measurement of mRNA transcripts in two canine models of AS: a mixed breed model of X-linked AS (XLAS) and the English Cocker Spaniel (ECS) model of autosomal recessive AS (ARAS). The work done revealed a decrease in COL4α4 transcripts. The similarity between the decrease of COL4α5 in the XLAS model and that for COL4α4 in the ARAS model lead to the investigation of COL4α4 as the gene harboring the mutation causative for ARAS in the ECS. Upon sequencing COL4α4, the causative mutation was determined to be an A to T transversion in exon 3. To provide an in vitro model to study type IV collagens, a protocol was designed and experimentally validated to isolate and culture canine Sertoli cells. Canine testes cells were isolated and cultured. Cells were verified as Sertoli cells through positive identification of both SOX9 and Clusterin B proteins, along with sequence verification of SOX9 transcripts. This in vitro model provides a tool to further study the type IV collagens. Overall, the research described herein lead to the identification of the mutation causative for ARAS in the ECS. With this knowledge a genetic test was developed to test for the disease. This research also provided valuable information about the transcript levels of type IV collagens in two models of AS, and provided a novel model in which to study the type IV collagens further.
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Characterization of the mutation causative for autosomal recessive hereditary nephropathy in the english cocker spaniel and analysis of gene expression in multiple models of hereditary nephropathyDavidson, Ashley Greene 15 May 2009 (has links)
The domestic dog, Canis familiaris, has over 450 naturally occurring inherited diseases. Over half of these diseases are clinically similar to human diseases making the dog an excellent model in which to study human hereditary diseases. Alport syndrome (AS), a group of heterogeneous, hereditary renal diseases, is one example of such a human disease. The disease is transmitted in three fashions: X-linked, autosomal recessive, and autosomal dominant. AS is caused by mutations in COL4α3, COL4α4 or COL4α5, all members of the type IV collagen family. The proteins products of these genes along with those of the other type IV collagen family members (COL4α1, COL4α2, and COL4α6) are structural components of basement membranes throughout the body. This dissertation describes the measurement of mRNA transcripts in two canine models of AS: a mixed breed model of X-linked AS (XLAS) and the English Cocker Spaniel (ECS) model of autosomal recessive AS (ARAS). The work done revealed a decrease in COL4α4 transcripts. The similarity between the decrease of COL4α5 in the XLAS model and that for COL4α4 in the ARAS model lead to the investigation of COL4α4 as the gene harboring the mutation causative for ARAS in the ECS. Upon sequencing COL4α4, the causative mutation was determined to be an A to T transversion in exon 3. To provide an in vitro model to study type IV collagens, a protocol was designed and experimentally validated to isolate and culture canine Sertoli cells. Canine testes cells were isolated and cultured. Cells were verified as Sertoli cells through positive identification of both SOX9 and Clusterin B proteins, along with sequence verification of SOX9 transcripts. This in vitro model provides a tool to further study the type IV collagens. Overall, the research described herein lead to the identification of the mutation causative for ARAS in the ECS. With this knowledge a genetic test was developed to test for the disease. This research also provided valuable information about the transcript levels of type IV collagens in two models of AS, and provided a novel model in which to study the type IV collagens further.
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Einfluss der ACE-Hemmer-Therapie auf das Fortschreiten der Niereninsuffizienz bei Patienten mit Alport-Syndrom / Datenerhebung an deutschen kindernephrologischen Zentren / The Influence of the ACE Inhibitor Therapy on the Advancement of the Kidney Insuffiency for Patients with Alport Syndrome.Bach, Christopher 20 March 2012 (has links)
No description available.
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Die Expression von Sulfattransportern als Funktion einer fortschreitenden Nierenfibrose am Modell der Alport-Maus / (Den übersetzten Titel in englischer Sprache einfügen!!!)Mirgel, Marcia 10 October 2011 (has links)
No description available.
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