Global ETD Search

11	Adverse effects of aortic backward waves in a group of African Ancestry Sibiya, Moekanyi Jeffrey January 2017 (has links) A thesis submitted to the Faculty of Health Sciences, University of the Witwatersrand, for the degree of Doctor of Philosophy. Johannesburg, South Africa September 2017. / Although brachial blood pressure (BP) is a well-recognized risk factor for predicting cardiovascular events, aspects of aortic BP may enhance risk prediction. Pulse pressure (PP) is amplified from the aorta to peripheral arteries and variations in differences between brachial and aortic PP (PP amplification) are determined by factors that influence either the aortic forward (Pf) or backward (Pb)(reflected) pressure waves. Although aortic Pb may be more important than Pf in mediating cardiovascular risk, the best approach to assessing backward wave function (augmentation pressures [Pa] and index [AIx] or wave separation analysis); the relative impact of aortic Pb versus Pf on cardiovascular damage; and whether the ability of aortic-to-brachial PP amplification (PPamp) to add to risk prediction reflects backward or forward wave effects, is uncertain. In the present thesis I therefore first assessed in 808 community participants whether gender influences relations between Pa or AIx and left ventricular mass (LVM), a well-accepted end-organ measure. Aortic haemodynamics were determined using radial applanation tonometry and SphygmoCor software and LVM from echocardiography. In men, both AIx derived from Pa/central aortic PP (Pa/PPc) (p<0.01) and AIx derived from the second peak/first peak (P2/P1) of the aortic pulse wave (p<0.0005) were associated with LVM. In contrast, in women neither AIx derived from Pa/PPc (p=0.08) nor AIx derived from P2/P1 (p=0.17) were associated with LVM. Both the strength of the correlations (p<0.001 and p<0.0005) and the slope of the AIx-LVM relationships (p=0.001 and p<0.0005) were greater in men as compared to women. Therefore, in the present study I show that AIx is independently associated with LVMI in men, but not in women. I subsequently evaluated whether in women, measures of aortic systolic pressure augmentation (Pa or AIx) underestimate the effects of reflected waves on cardiovascular risk or whether Pb plays little role in cardiovascular risk prediction. In the same community sample I therefore evaluated sex-specific contributions of reflected (Pb and the reflection index [RI]) versus augmented (Pa and AIx) pressure wave indices to iii variations in PPc (n=1185, 65.0% women), and LVM (n=793, 64.9% women). Aortic Pb and Pf were determined using wave separation analysis. In both women and in men, independent of confounders, RI and Pb contributed more than Pf, whilst Pa and AIx contributed less than incident wave pressure (Pi) to variations in PPc (p<0.0001 for comparison of partial r values). In both men and in women Pb contributed more than Pf (p<0.05) to variations in LVM. Although in men Pa (partial r=0.33, p<0.0001) contributed to a similar extent as Pi ((partial r=0.34, p<0.0001) to variations in LVMI, in women Pa (partial r=0.05, p=0.36) failed to contribute to LVM, whilst Pi was significantly associated with LVM (partial r=0.30, p<0.0001). Similar results were obtained with AIx as opposed to Pa in the regression models. Therefore, in both women and in men, Pb is more closely associated with PPc and LVM than Pf, but indices of aortic pressure augmentation markedly underestimate these effects, particularly in women. As the relative impact of aortic Pb as compared to Pf on cardiovascular damage independent of brachial BP is uncertain, in 1174 participants from a community sample I subsequently assessed the relative impact of Pb and Pf on variations in LVM (n=786), aortic pulse wave velocity (PWV)(n=1019), carotid intima-media thickness (IMT)(n=578), transmitral early-to-late LV diastolic velocity (E/A)(n=779) and estimated glomerular filtration rate (eGFR)(n=1174). Independent of mean arterial pressure and confounders, PPc and both Pb and Pf were associated with end-organ measures or damage (p<0.05 to <0.0001). With adjustments for brachial PP and confounders, Pb remained directly associated with LVM (partial r=0.10, p<0.01), PWV (partial r=0.28, p<0.0001), and IMT (partial r=0.28, p<0.0001), and inversely associated with E/A (partial r=-0.31, p<0.0001) and eGFR (partial r=-0.14, p<0.0001). Similar relations were noted with the presence of end-organ damage (p<0.05 to <0.0001). In contrast, with adjustments for brachial PP and confounders, Pf no longer retained direct relations with LVM, PWV, and IMT or inverse relations with E/A and eGFR. Adjustments for Pb, but not Pf diminished brachial PP-independent relationships between PPc and end-organ measures. Thus, although both Pf and Pb contribute to end-organ measures and damage, independent of brachial iv BP, the impact of aortic BP is accounted for largely by Pb. PPamp is independently associated with cardiovascular outcomes. However, the aortic functional change most likely to account for this effect is uncertain. In 706 community participants I subsequently aimed to identify the aortic functional change that accounts for relations between PPamp and LVM. In multivariate models with the inclusion of brachial PP, 1/PPamp (partial r=0.12, p<0.005), Pb (partial r=0,09, p<0.05), and aortic PWV (partial r=0.09, p<0.05) were independently associated with LVMI. Similarly, in multivariate models with the inclusion of brachial PP, 1/PPamp (p<0.005), Pb (p<0.01), and aortic PWV (p<0.01) were independently associated with LV hypertrophy (LVH). With adjustments for Pb, the brachial PP-independent relationships between 1/PPamp and LVMI or LVH were abolished (p>0.08 for both). However, adjustments for PWV failed to modify brachial PP-independent relations between 1/PPamp and LVMI or LVH. Hence, independent relations between PPamp and LVM or LVH are largely accounted for by Pb. In conclusion, in the present thesis I show that the use of augmented pressures underestimates the impact of reflected pressure wave effects on end-organs, particularly in women; that brachial BP-independent relations between aortic BP and end organs is determined largely by Pb and that relations between PPamp and end organ measures is largely accounted for by Pb. These findings add to our understanding of the adverse effects of aortic functional changes on the cardiovascular system and suggest cost-effective approaches to add to risk prediction. / LG2018 Blood Pressure Aortic Valve Disease
12	Rizikové faktory aortální stenózy u pacientů s koronární nemocí. Srovnání pacientů s kalcifikovanou aortální stenózou a neobstrukční aortální sklerózou. / Risk factors for aortic valve stenosis in patients with coronary artery disease Linhartová, Kateřina January 2007 (has links) In calcific aortic valve disease, the early sclerotic valve lesion is similar to the atherosclerotic arterial plaque, but at the later stage calcification prevails. Our aim was to assess the association of several new potential risk factors, eg. systemic inflammation, neurohormonal activation and altered calcium metabolism with aortic stenosis (AS) in patients with significant coronary artery disease..
13	Signs of inflammation in different types of heart valve disease : the VOCIN study / Wallby, Lars, January 2008 (has links) Diss. Linköping : Linköpings universitet, 2008.
14	Evaluating the Feasibility and Effectiveness of a Measurement Device to Be Used Intraoperatively During Aortic Valve Repair Qureshi, Rohail 27 October 2021 (has links) The ability to accurately and in a repeatable fashion, measure aortic valve dimensions during aortic valve repair is critical to the restoration of function in a diseased aortic valve, as for example in aortic insufficiency. Although several methods for measuring aortic valve dimensions have been shown to be feasible, they are approximate and lack the accuracy, robustness, and repeatability one would expect to support aortic valve repair surgery. In addition, they do not allow for the intra-operative measurement of aortic valves under conditions equivalent to the physiological (pressurized) state. A prototype medical device was designed, and 3-D printed at the University of Ottawa that would allow cardiac surgeons performing aortic valve repair to do just that. The prototype was tested for its accuracy and precision at the University of Ottawa Heart Institute using porcine aortic valves. Based on unsatisfactory results of this experimentation, namely, that the device was applying forces that were too large, a numerical simulation study was designed using a commercial finite element software LS-DYNA. This simulation study was used to explore the forces that the prototype device needed to apply to obtain end-diastolic pressurized dimensions of the aortic valve. The simulation study showed that one single device was likely not possible to obtain measurements in an aortic valve. However, a system of two devices could be imagined, one to measure the STJ diameter and free margin length of the aortic valve cusps, and one to measure the cusp height of the same valve, for the purposes of aortic valve repair. Aortic valve repair Aortic valve dimensions Measurement device for aortic valve
15	The fluid shear stress environment of the normal and congenital bicuspid aortic valve and the implications on valve calcification Yap, Choon Hwai 18 August 2011 (has links) Calcific aortic valve disease is highly prevalent, especially in the elderly. Currently, the exact mechanism of the calcification process is not completely understood, limiting our ability to prevent or cure the disease. Ex vivo investigations, however, have provided evidence that the aortic valve's biological response is sensitive to mechanical forces, including fluid shear stresses, leading to the hypothesis that adverse fluid shear stress environment play a role in leading to valve calcification. This thesis seeks to investigate this hypothesis. A method for performing experimental measurement of time-varying shear stress on aortic valve leaflets under physiologic flow conditions was first developed, based on the Laser Doppler Velocimetry technique, and was systematically validated. This method was then applied to both the aortic surface and the ventricular surface of a normal tricuspid the aortic valve, and then on a congenital bicuspid aortic valve, using suitable in vitro valve models and an in vitro pulsatile flow loop. It was found that in the tricuspid valve, the peak shear stress on the aortic surface under adult resting condition was approximately 15-19 dyn/cm². Aortic surface shear stresses were elevated during mid- to late-systole, with the development of the sinus vortex, and were low during all other instances. Aortic surface shear stresses were observed to increase with increasing stroke volume and with decreasing heart rate. On the ventricular surface, shear stresses had a systolic peak of approximately 64-71 dyn/cm² under adult resting conditions. During late systole, due to the Womersley effect, shear stresses were observed to reverse in direction to a substantial magnitude for a substantial period of time. Further, it was found that a moderately stenotic bicuspid aortic valve can experience excessive unsteadiness in shear stress experienced by its leaflets, most likely due to the turbulent forward flow resulting from the stenosis, and due to the skewed forward flow. To demonstrate that the measured shear stresses can have an effect on the aortic valve biology, ex vivo experiments were performed in specific to determine the effects of these various shear stress characteristics on the biological response of porcine aortic valve leaflets, using the cone and plate bioreactor. It was found that unsteady shear stress measured in the bicuspid valve resulted in increased calcium accumulation. Further, it was found that low shear stresses and high frequency shear stresses resulted in increased calcium accumulation. Thus, shear stress was found to affect aortic valve pathology, and low and unsteady fluid shear stresses can enhance pathology. Bicuspid aortic valve Laser doppler velocimetry Cone and plate bioreactor Shear stress Fluid mechanics Aortic valve Aortic valve calcification disease Aortic valve Diseases Aortic valve insufficiency Aortic valve Stenosis Mitral valve
16	Discovery of shear- and side-dependent messenger RNAs and microRNAs in aortic valvular endothelium Holliday, Casey Jane 06 January 2012 (has links) Aortic valve (AV) disease is a major cause of cardiovascular-linked deaths globally. In addition, AV disease is a strong risk factor for additional cardiovascular events; however, the mechanism by which it initiates and progresses is not well-understood. We hypothesize that low and oscillatory flow is present on the fibrosa side of the AV and stimulates ECs to differentially regulate microRNA (miRNA) and mRNAs and influence AV disease progression. This hypothesis was tested employing both in vitro and in vivo approaches, high throughput microarray and pathway analyses, as well as a variety of functional assays. First, we isolated and characterized side-dependent, human aortic valvular endothelial cells (HAVECs). We found that HAVECs express both endothelial cell markers (VE-Cadherin, vWF, and PECAM) as well as smooth muscle cell markers (SMA and basic calponin). Using microarray analysis on sheared, side-specific HAVECs, we identified side- and shear-induced changes in miRNA and mRNA expression profiles. More specifically, we identified over 1000 shear-responsive mRNAs which showed robust validation (93% of those tested). We then used Ingenuity Pathway Analysis to identify key miRNAs, including those with many relationships to other genes (for example, thrombospondin and I&B) and those that are members of over-represented pathways and processes (for example, sulfur metabolism). Furthermore, we validated five shear-sensitive miRNAs: miR-139-3p, miR-148a, miR-187, miR-192, and miR-486-5p and one side-dependent miRNA, miR-370. To prioritize these miRNAs, we performed in silico analysis to group these key miRNAs by cellular functions related to AV disease (including tissue remodeling, inflammation, and calcification). Next, to compare our in vitro HAVEC results in vivo, we developed a method to isolate endothelial-enriched, side-dependent total RNA and identify and validate side-dependent (fibrosa vs. ventricularis) miRNAs in porcine aortic valvular endothelium. From this analysis, we discovered and validated eight side-dependent miRNAs in porcine endothelial-enriched AV RNA, including one miRNA previously identified in vitro, miR-486-5p. Lastly, we determined the relationship between important miRNAs (specifically miR-187 and miR-486-5p) and AV disease by modulating levels of miRNAs and performing functional assays. Preliminary studies overexpressing miR-187 in HAVECs have shown a reduction in inflammatory state through monocyte adhesion (p<0.05). Further, miR-486-5p overexpression reveals an increase in migration (p<0.05) and a trend for a decrease in early apoptosis, linking miR-486-5p to tissue remodeling in the AV. Better understanding of AV biology and disease in terms of gene-regulation under different hemodynamic conditions will facilitate the design of a tissue-engineered valve and provide alternative treatment options. Aortic valve Endothelium MicroRNAs Shear stress Microarrays MRNAs Aortic valve Diseases Aortic valve Stenosis Messenger RNA Vascular endothelium
17	New insights into the left ventricular morphological and functional changes in patients with bicuspid aortic valve disease Disha, Kushtrim 05 December 2018 (has links) No description available. info:eu-repo/classification/ddc/610 ddc:610
18	A systemic Review: Are Outcomes of Aortic Valve Repair ‘A Beneficial alternative’ for patients with Aortic Valve Insufficiency? Malik, Samreen Mohammad January 2020 (has links) IntroductionThe young adult patients with aortic valve insufficiency undergo aortic valve replacement (AVR) and are forced to take anticoagulation medications for the rest of life due to prosthetic valve. This leads to many post-operative complications and drastic outcomes. Whereas, the in-vogue alternative of aortic valve repair (AVr) is available and a lot more beneficial as well.Especially considering the surgeon’s skills for selected repair procedure, selectively chosen patient with mild to moderate grades of aortic valve insufficiency and no significant comorbidities present for at least five (5) years or longer time. AimThe aim of this study was to affirm ‘if all kind of outcomes of aortic valve repair are beneficial alternative to aortic valve replacement (AVR) for the patients suffering from aortic valve insufficiency for at least five (5) years or longer time. Material and MethodsInternet search using standard key words of ‘Aortic Valve Repair and Outcomes’ was used to find both white literature (officially published literature) and grey literature (unpublished or ongoing study/literature) with human, adult, English language and studies published after January 1st 2007 as limitations. Inclusion criteria was adult patients with aortic insufficiency with aortic valve repair as intervention with outcomes at least greater than five (5) years were considered. All the data was extracted using Microsoft excel for windows and was analyzed using GraphPad Prisma. Results20 studies comprising of 5369 patients were included in this systemic review, which included 2 randomized control trails, 7 clinical prospective studies, 8 retrospective studies and 3 observational studies. ConclusionThis study suggests that aortic valve repair is a beneficial alternative available for younger adults suffering from aortic valve insufficiency in longer time. Aortic Valve Aortic Valve Insufficiency Aortic Valve Repair Outcomes Evaluation Systematic Review. Medical and Health Sciences Medicin och hälsovetenskap
19	Functional properties of aortic smooth muscle in bicuspid aortic valvedisease Ho, Ka-lai, Cally., 何嘉麗. January 2011 (has links) published_or_final_version / Physiology / Master / Master of Medical Sciences Aortic valve - Diseases. Vascular smooth muscle.
20	The numerical simulation of flow through an axisymmetric aortic heart valve Williams, Franklin Pierce 05 1900 (has links) No description available. Aortic valve Heart valves Body fluid flow

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