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State of Stress in Idealized Fusiform Abdominal Aortic Aneurysm Phantoms: A Photoelastic StudySrivastava, Gaurav K. January 2008 (has links)
No description available.
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Effects of adipocyte deficiency of angiotensin type 1a receptors in models of obesity and hypercholesterolemiaPutnam, Kelly Anne 01 January 2012 (has links)
Adipocytes express angiotensin II (AngII) receptors; however the direct effects of AngII at the adipocyte remain unclear. Knockout mouse models of renin-angiotensin system components exhibit reduced body weight, reduced adiposity, improved glucose tolerance, and improved blood pressure when fed high fat diets, which may be due to reduced action of AngII through the AT1aR in adipocytes. Additionally, hypercholesterolemic AT1aR deficient mice are protected from AngII-induced increases in atherosclerosis and abdominal aortic aneurysm (AAA) formation. We hypothesized that deficiency of AT1aR in adipocytes would reduce the development of obesity, obesity-induced disorders, and vascular diseases. To test this hypothesis, we created a mouse model of adipocyte AT1aR deficiency using the Cre/LoxP system. Adipocyte-AT1aR deficiency confers no protection from the development of obesity or obesity- associated parameters. However, low fat fed adipocyte-AT1aR deficient mice exhibit remarkable adipocyte hypertrophy and reductions in adipocyte differentiation. These results demonstrate that AngII is a stimulus for adipocyte differentiation and adipocyte hypertrophy alone is insufficient to initiate obesity- associated disorders. In hypercholesterolemic mice, adipocyte AT1aR deficiency conferred no protection from diet or AngII-induced vascular diseases. Overall these studies suggest the primary role of adipocyte AT1aRs is to promote adipocyte differentiation and the development of small adipocytes.
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Familial occurrence of abdominal aortic aneurysmsNorrgård, Örjan January 1985 (has links)
The occurrence of clinically diagnosed and/or ruptured abdominal aortic aneurysms (AAAs) in the families of 220 patients with AAAs, treated at the Surgical Clinic, University Hospital of Umeå in the northern part of Sweden during the years 1965-82, was studied. A questionnaire concerning the blood relatives was answered by 87/89 patients. 16/87 patients (18%) had blood relatives with AAAs. In 14 families one blood relative was affected, and in 2 families two blood relatives were affected. First degree relatives were affected in 9/87 cases (10%), and second degree relatives in 7/87 cases (8%). 9/468 (1.9%) of the patients' brothers and sisters but only five of all their cousins had AAAs, and 7/204 (3.4%) of the dead brothers and sisters had died of ruptured AAAs. Concerning the patients who were not included in the letter survey at least 14/133had blood relatives with AAAs. However, the great majority of these patients were dead when the study was performed and could not be asked aboutthe occurrence of AAAs in their families. The patients with AAAs had significantly higher serum concentrations of triglyceride and (YLDL + LDL)-cholesterol and a significantly lower serum concentration of HDL-cholesterol than randomly selected healthy controls of the same sex and age as the patients. We also compared the distributions of genetic markers (HLA antigens, the blood group systems ABO, Rh, MNSs, P, Kell, Lewis and Duffy and the serum protein group systems haptoglobin, transferrin, group-specific component, complement C3, properdin factor and alpha-1-antitrypsin) in patients with AAAs with the distributions in controls and in some cases with the expected distributions according to the Hardy-Weinberg law. A significantly decreased frequency of Rh-negative individuals, and significantly increased frequencies of Kell-positi ve individuals, of MN heterozygotes and of heterozygotes concerning haptoglobin type was found. Furthermore, the aneurysm walls of patients with and without AAAs in the family were compared concerning the morphology, but no differences were found. We also studied the occurrence of collagen types I and III in the aneurysm walls, and the occurrence of vimentin and desmin in the smooth muscle cells of the aneurysm walls, but all these components were present in the aneurysm walls of both the patients with and those without AAAs in the family. To summarize the results, there seems to be an increased frequency of AAAs, and especially of ruptured AAAs, among the brothers and sisters of patients with AAAs. Elevated serum concentrations of triglyceride and (VLDL + LDL)- cholesterol and a lowered serum concentration of HDL-cholesterol seems to be common in patients with AAAs. There seems to be a hereditary predisposition to the development of AAAs, because we found associations with four different genetic markers (Rh, MN, Kell, haptoglobin group). However, there is probably no specific "familial" type of AAAs, because we found no differences between the patients with and those without AAAs in the family.Key words: / <p>S. 1-42: sammanfattning, s. 43-103: 5 uppsatser</p> / digitalisering@umu
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Stem Cells Based Elastic Matrix Regeneration for Small Abdominal Aortic Aneurysms (AAAs) RepairDahal, Shataakshi 15 September 2020 (has links)
No description available.
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High-Frequency Murine Ultrasound Provides Enhanced Metrics of BAPN-Induced AAA GrowthDaniel J Romary (6597407) 15 May 2019 (has links)
<p>An abdominal aortic aneurysm (AAA), defined as a pathological expansion of the largest artery in the abdomen, is a relatively common disease that frequently leads to death if rupture occurs. Once diagnosed, clinicians often evaluate the rupture risk based on the maximum diameter of the aneurysm, a limited metric that is not accurate for all patients. In this study, we worked to provide additional distinguishing factors between growing and stable AAAs to aid in clinical rupture risk assessment. We utilized a relatively new murine model that uses surgical application of topical elastase to cause initial aortic expansion, and a lysyl oxidase inhibitor, β-aminopropionitrile (BAPN), in the drinking water to promote AAA growth. We further sought to develop and demonstrate applications of advanced imaging approaches, including four-dimensional ultrasound (4DUS), to obtain and evaluate alternative geometric and biomechanical parameters between 1) growing AAAs, 2) stable AAAs, and 3) non-aneurysmal control mice. Our study confirmed the reproducibility of the model and found reduced strain values, greater tortuosity, and decreased elastin health in mice with aneurysms. We also found expanding murine AAAs to have increased peak wall stress and surface area per length compared to stable aneurysms. The results from this work help provide a better understanding of the growth patterns associated with elastase-BAPN murine aneurysms and demonstrate the capabilities of high-frequency ultrasound. Eventually these data could help lay the groundwork for improving insight into clinical prediction of AAA expansion.</p>
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