A study of Quantification of Aortic Compliance in Mice using Radial Acquisition Phase Contrast MRI

Zhao, Xuandong

09 August 2010

No description available.

Physics

PWV

aorta

arterial

Aortic

WSS

velocity

Pulse Wave

Prevalence and Natural History of Aortic Root Dilation in a Longitudinal Cohort of Patients with Ehlers-Danlos Syndrome Hypermobility Type

Ritter, Alyssa

28 June 2016

No description available.

Genetics

hypermobility

aortic root dilation

ehlers-danlos syndrome

Pathology of Calcific Aortic Valve Disease: The Role of Mechanical and Biochemical Stimuli in Modulating the Phenotype of and Calcification by Valvular Interstitial Cells

Yip, Cindy Ying Yin

16 March 2011

Calcific aortic valve disease (CAVD) occurs through multiple mutually non-exclusive mechanisms that are mediated by valvular interstitial cells (VICs). VICs undergo pathological differentiation during the progression of valve calcification; however the factors that regulate cellular differentiation are not well defined. Most commonly recognized are biochemical factors that induce pathological differentiation, but little is known regarding the biochemical factors that may suppress this process. Further, the contribution of matrix mechanics in valve pathology has been overlooked, despite increasing evidence of close relationships between changes in tissue mechanics, disease progression and the regulation of cellular response. In this thesis, the effect of matrix stiffness on the differentiation of and calcification by VICs in response to pro-calcific and anti-calcific biochemical factors was investigated. Matrix stiffness modulated the response of VICs to pro-calcific factors, leading to two distinct calcification processes. VICs cultured on the more compliant matrices underwent calcification via osteoblast differentiation, whereas those cultured on the stiffer matrices were prone to myofibroblast differentiation. The transition of fibroblastic VICs to myofibroblasts increased cellular contractility, which led to contraction-mediated, apoptosis-dependent calcification. In addition, C-type natriuretic peptide (CNP), a putative protective molecule against CAVD, was identified. CNP supressed myofibroblast and osteoblast differentiation of VICs, and thereby inhibited calcification in vitro. Matrix stiffness modulated the expression of CNP-regulated transcripts, with only a small number of CNP-regulated transcripts not being sensitive to matrix mechanics. These data demonstrate the combined effects of mechanical and biochemical cues in defining VIC phenotype and responses, with implications for the interpretation of in vitro models of VIC calcification and possibly disease devleopment. The findings from this thesis emphasize the necessity to consider both biochemical and mechanical factors in order to improve fundamental understanding of VIC biology.

Calcific aortic valve disease

Valvular interstitial cells

Aortic valve

Matrix stiffness

C-type natriuretic peptide

Microarray

0541

Expressão dos níveis plasmáticos dos miRNA-191 e miRNA-455-3P em pacientes com aneurisma de aorta abdominal e suas relações com a evolução clínica após tratamento endovascular / Expression of plasma levels of miRNA-191 and miRNA-455-3P in patients with abdominal aortic aneurysm and their relationship with a clinical outcome after endovascular treatment

Tenório, Emanuel Júnio Ramos

25 April 2017

Introdução: O aneurisma de aorta abdominal (AAA) é uma importante causa de morbimortalidade na população idosa. O tratamento endovascular está associado a menor morbimortalidade que o tratamento convencional, no entanto, necessita de um seguimento rigoroso com exames de imagem contrastados para confirmação da exclusão do saco aneurismático. Considerando que a formação de um aneurisma é um processo multifatorial complexo, envolvendo a remodelação destrutiva do tecido conjuntivo em todo o segmento afetado da parede da aorta e que este processo envolve uma inflamação crônica local, uma diminuição no número de células do músculo liso da túnica média, e fragmentação da matriz extracelular da aorta e ainda que um perfil de expressão aberrante de miRNAs tem sido associada a doenças humanas, incluindo disfunção cardiovascular propôs-se então a realização deste estudo envolvendo todo este processo. O objetivo principal foi quantificar e avaliar a resposta da expressão dos miRNAs à correção endovascular de aneurisma de aorta abdominal com base em dosagens séricas no seguimento de seis meses. População e Método: Foram recrutados 30 pacientes consecutivos com AAA sem outras doenças inflamatórias associadas, do Ambulatório de Cirurgia Vascular e Endovascular do HCFMRPUSP com indicação de tratamento endovascular. Foram escolhidos para estudo e dosagens séricas os miRNA-191 e miRNA-455-3p. A expressão diferencial dos miRNAs foi realizada pelo método de PCR em tempo real, após extração do RNA das amostras de sangue total em dois momentos, pré- operatório e após 6 meses de pós-operatório. Além disso, ferramentas de bioinformática foram utilizadas para determinar vias fisiopatológicas relacionadas ao AAA. Foram Colhidos dados de perfil demográfico, de seguimento clinico e exames de imagem com angiotomografia no pré-operatórios e após 6 meses. Resultados: Foi observado uma hiperexpressão dos miR-191 e miR-455-3p no sangue total dos pacientes com AAA. O tratamento endovascular dos pacientes com AAA resultou em diminuição significativa das expressões dos miRNAs estudados, indicando que a exclusão do saco aneurismático altera as expressões dos mesmos. Adicionalmente, as expressões dos miR-191 e miR-455-3p não apresentaram correlação com o diâmetro do aneurisma e a análise da influência dos diversos tipos de dispositivos utilizados para o tratamento endovascular dos AAA, não mostrou diferenças significativas nas expressões dos miR-191 e miR-455-3p. Conclusões: A hiperexpressão dos miR-191 e miR-455-3p com sua significativa redução apos o tratamento endovascular, pode sugerir a utilização dessas moléculas como potenciais biomarcadores no seguimento desses pacientes. Novos estudos com maior número de casos devem ser realizados com o objetivo de validar os dados obtidos incluindo pacientes com eventuais vazamentos. / Background: Abdominal aortic aneurysm (AAA) is an important cause of morbidity and mortality in the elderly population. Endovascular treatment is associated with lower morbidity and mortality than conventional treatment, however, it requires a rigorous follow-up with contrast imaging tests to confirm the aneurysmal sac exclusion. Considering that the formation of an aneurysm is a complex multifactorial process, involving the destructive remodeling of the connective tissue throughout the affected segment of the aortic wall and that this process involves a chronic local inflammation, a decrease in the number of smooth muscle cells of the media tunic, and fragmentation of the extracellular matrix of the aorta and although an aberrant expression profile of miRNAs has been associated with human diseases, including cardiovascular dysfunction, it was proposed to carry out this study involving this whole process. The main objective was to quantify and evaluate miRNA expression response to endovascular correction of abdominal aortic aneurysm based on serum dosages at the six-month follow-up. Population and Method: We recruited 30 consecutive patients with AAA without other associated inflammatory diseases from the Ambulatory of Vascular and Endovascular Surgery of the HCFMRPUSP with indication of endovascular treatment. The miRNA-191 and miRNA-455-3p were selected for study and serum dosages. The differential expression of the miRNAs was performed by the real-time PCR method, after extraction of RNA from the whole blood samples at two moments, preoperatively and after 6 months of follow-up. In addition, bioinformatics tools were used to determine pathophysiological pathways related to AAA. Demographic profile, clinical follow-up and imaging examinations with angiotomography performed in the preoperative period and after 6 months were collected. Results: Hyperexpression of miR-191 and miR-455-3p in whole blood of AAA patients was observed. The endovascular treatment of patients with AAA resulted in a significant decrease in the expression of the miRNAS studied, indicating that the exclusion of the aneurysmal sac altered their expression. In addition, the expression of miR-191 and miR-455-3p showed no correlation with the diameter of the aneurysm and analysis of the influence of the various types of devices used for the endovascular treatment of AAA did not show significant differences in the expression of miR-191 And miR-455-3p. Conclusions: The hyperexpression of miR- 191 and miR-455-3p with its significant reduction after endovascular treatment may suggest the use of these molecules as potential biomarkers in the follow-up of these patients. New studies with a greater number of cases should be performed with the objective of validating the data obtained including patients with possible endoleaks.

Abdominal aortic aneurysm

Aneurisma de aorta abdominal

Biomarcadores

Biomarkers

MicroRNAs

MicroRNAs

Transcatheter aortic valve implantation for patients with aorticstenosis and concomitant ischemic heart disease: : A five-yearfollow-up

Akram, Abawi

January 2019

Introduction: Transcatheter aortic valve implantation (TAVI) is an established procedure to treat severe aortic stenosis (AS). This study investigates the impact of ischemic heart disease (IHD) on survival in patients undergoing TAVI. Aim: Five-year all-cause mortality stratified according to the presence or absence of IHD. Methods: Retrospective register study including all patients that underwent a TAVI-procedure 2009 to 2018. Patients were stratified according to the presence or absence of IHD. Our primary end-point was five-year all-cause mortality. Survival was analyzed using Kaplan-Meier curve. Data were acquired through the SWENTRY registry and patient files. Results: A total of 264 patients were included in the study, with 139 (52.7 %) patients in the IHD group vs 125 (47.3 %) patients in the non-IHD group. Mean follow-up time was 40 ±30 months. At baseline, there was a higher proportion of males, patients with hypertension, peripheral arterial disease, left ventricular ejection fraction <50 % and, a higher EuroSCORE I in the IHD-group. Transfemoral approach was most common in both groups. No differences were noted in respect to peri- and postoperative complications. Five-year all-cause mortality was 17/38 (44.7 %) vs 18/30 (60.0 %), p = 0,232, in the IHD and non-IHD group respectively. Non-adjusted cumulative five-year survival was not significantly different between the groups (Log-Rank, p = 0,056). Conclusions: In patients with severe AS undergoing TAVI, the five-year all-cause mortality was not statistically different between patients with or without IHD.

Aortic stenosis

ischemic heart disease

mortality

transcatheter aortic valve implantation

transfemoral approach.

Medical and Health Sciences

Medicin och hälsovetenskap

New insights in the assessment of right ventricular function : an echocardiographic study

Calcutteea, Avin

January 2013

Background:  The right ventricle (RV) is multi-compartmental in orientation with a complex structural geometry. However, assessment of this part of the heart has remained an elusive clinical challenge. As a matter of fact, its importance has been underestimated in the past, especially its role as a determinant of cardiac symptoms, exercise capacity in chronic heart failure and survival in patients with valvular disease of the left heart. Evidence also exists that pulmonary hypertension (PH) affects primarily the right ventricular function. On the other hand, previous literature suggested that severe aortic stenosis (AS) affects left ventricular (LV) structure and function which partially recover after aortic valve replacement (AVR). However, the impact of that on RV global and segmental function remains undetermined.  Objectives: We sought to gain more insight into the RV physiology using 3D technology, Speckle tracking as well as already applicable echocardiographic measures. Our first aim was to assess the normal differential function of the RV inflow tract (IT), apical and outflow tract (OT) compartments, also their interrelations and the response to pulmonary hypertension. We also investigated the extent of RV dysfunction in severe AS and its response to AVR. Lastly, we studied the extent of global and regional right ventricular dysfunction in patients with pulmonary hypertension of different aetiologies and normal LV function. Methods: The studies were performed on three different groups; (1) left sided heart failure with (Group 1) and without (Group 2) secondary pulmonary hypertension, (2) severe aortic stenosis and six months post AVR and (3) pulmonary hypertension of different aetiologies and normal left ventricular function. We used 3D, speckle tracking echocardiography and conventionally available Doppler echocardiographic transthoracic techniques including M-mode, 2D and myocardial tissue Doppler. All patients’ measurements were compared with healthy subjects (controls). Statistics were performed using a commercially available SPSS software. Results: 1-  Our RV 3D tripartite model was validated with 2D measures and eventually showed strong correlations between RV inflow diameter (2D) and end diastolic volume (3D) (r=0.69, p<0.001) and between tricuspid annular systolic excursion (TAPSE) and RV ejection fraction (3D) (r=0.71, p<0.001). In patients (group 1 & 2) we found that the apical ejection fraction (EF) was less than the inflow and outflow (controls:  p<0.01 & p<0.01, Group 1:  p<0.05 & p<0.01 and Group 2: p<0.05 & p<0.01, respectively). Ejection fraction (EF) was reduced in both patient groups (p<0.05 for all compartments). Whilst in controls, the inflow compartment reached the minimum volume 20 ms before the outflow and apex, in Group 2 it was virtually simultaneous. Both patient groups showed prolonged isovolumic contraction (IVC) and relaxation (IVR) times (p<0.05 for all). Also, in controls, the outflow tract was the only compartment where the rate of volume fall correlated with the time to peak RV ejection (r = 0.62, p = 0.03). In Group 1, this relationship was lost and became with the inflow compartment (r = 0.61, p = 0.01). In Group 2, the highest correlation was with the apex (r=0.60, p<0.05), but not with the outflow tract. 2- In patients with severe aortic stenosis, time to peak RV ejection correlated with the basal cavity segment (r = 0.72, p<0.001) but not with the RVOT. The same pattern of disturbance remained after 6 months of AVR (r = 0.71, p<0.001). In contrast to the pre-operative and post-operative patients, time to RV peak ejection correlated with the time to peak outflow tract strain rate (r = 0.7, p<0.001), but not with basal cavity function. Finally in patients, RVOT strain rate (SR) did not change after AVR but basal cavity SR fell  (p=0.04). 3- In patients with pulmonary hypertension of different aetiologies and normal LV function, RV inflow and outflow tracts were dilated (p<0.001 for both). Furthermore, TAPSE (p<0.001), inflow velocities (p<0.001), basal and mid-cavity strain rate (SR) and longitudinal displacement (p<0.001 for all) were all reduced. The time to peak systolic SR at basal, mid-cavity (p<0.001 for both) and RVOT (p=0.007) was short as was that to peak displacement (p<0.001 for all). The time to peak pulmonary ejection correlated with time to peak SR at RVOT (r=0.7, p<0.001) in controls, but with that of the mid cavity in patients (r=0.71, p<0.001). Finally, pulmonary ejection acceleration (PAc) was faster (p=0.001) and RV filling time shorter in patients (p=0.03) with respect to controls. Conclusion: RV has distinct features for the inflow, apical and outflow tract compartments, with different extent of contribution to the overall systolic function. In PH, RV becomes one dyssynchronous compartment which itself may have perpetual effect on overall cardiac dysfunction. In addition, critical aortic stenosis results in RV configuration changes with the inflow tract, rather than outflow tract, determining peak ejection. This pattern of disturbance remains six month after valve replacement, which confirms that once RV physiology is disturbed it does not fully recover. The findings of this study suggest an organised RV remodelling which might explain the known limited exercise capacity in such patients. Furthermore, in patients with PH of different aetiologies and normal LV function, there is a similar pattern of RV disturbance. Therefore, we can conclude that early identification of such changes might help in identifying patients who need more aggressive therapy early on in the disease process.

echocardiography

right ventricle

ischaemic heart disease

pulmonary hypertension

aortic stenosis

aortic valve replacement

three dimensional echocardiography

speckle tracking echocardiography

The role of bone morphogenic proteins in human aortic valvular endothelial cells

Ankeny, Randall Francis

01 April 2010

In the United States alone, there are nearly 49,000 aortic valvular repairs or replacements each year, and this number is expected to rise. Unlike atherosclerosis, the molecular mechanisms contributing to this side-dependent disease development are limited, which contributes to the lack of therapeutic treatments. Once clinically manifested, options for treatment are limited to valvular replacement or repair. Therefore understanding the mechanobiology and cellular responses in aortic valves may provide important information for disease development and possible biomarkers or therapeutic treatments. Aortic valve disease occurs on one side of the valvular leaflet. The fibrosa side, which faces the aorta, is prone to disease development, while the ventricularis remains relatively unaffected. The hemodynamics is hypothesized to play a role in side dependent disease formation. The fibrosa endothelium is exposed to oscillatory flow while the ventricularis endothelium is exposed to a pulsatile unidirectional flow. Previous work by our group has shown that bone morphogenic protein-4 is a mechanosensitve inflammatory cytokine in the vasculature. In the following study, we proposed that mechanosensitive bone morphogenic proteins play a role in side specific aortic valve disease. Recently, the bone morphogenic proteins (BMPs) have been found in calcified human aortic valves. Furthermore, BMP-4 in vascular endothelial cells is increased by oscillatory shear stress. However, the role of the BMPs in aortic valve endothelial cells and their contribution to aortic valve calcification remains unstudied. Therefore, the overall objective of this dissertation was to investigate how disease and hemodynamics affects the BMP pathway and inflammation in human aortic valvular endothelial cells. By understanding how the bone morphogenic proteins are regulated and what roles they play in aortic valve disease, we will have better insight into endothelial cell regulation and contribution in aortic valve pathology. The central hypothesis of this project was that oscillatory flow conditions on the fibrosa side of the aortic valve stimulate endothelial cells to produce BMP-4, which then activates an inflammatory response leading to accumulation of inflammatory cells, calcification, and ultimately valve impairment. This hypothesis was tested through three specific aims using calcified human aortic valves, non-calcified human aortic valves, and side-specific human aortic valve endothelial cells. We first worked to establish the importance of the BMPs in the aortic valvular endothelium by looking at two populations of aortic valves: 1) calcified human aortic valves were obtained from patients undergoing valve replacement, and 2) non-calcified valves were obtained from recipient hearts of patients undergoing heart transplantation. Using immunohistochemical techniques, we examined the BMPs, BMP antagonists, and SMADs. Surprisingly, we identified that the ventricularis endothelium had higher BMP expression in both calcified and non-calcified human aortic valves. Furthermore, no disease-dependent BMP expression was detected. Next, we examined the BMP antagonists and found that there was robust BMP antagonist expression in the ventricularis endothelium and very low expression in the fibrosa endothelium. Finally, to determine if the BMP pathway was activated, we stained for the canonical BMP signaling molecule phosphorylated-SMAD 1/5/8 and found increased staining in the endothelium of calcified human aortic valves. Furthermore, a significant increase in SMAD 1/5/8 phosphorylation was seen in the endothelium of calcified fibrosa when compared to the non-calcified fibrosa. Finally, inhibitory SMAD 6 was significantly increased in the ventricularis endothelium of non-calcified human aortic valves. These findings suggest that preferential activation of BMP pathways, controlled by the balance between the BMPs and their inhibitors, play an important role in side-dependent calcification of human AVs. We next wanted to examine the role of shear stress in BMP regulation, but before doing so, we needed to examine the endothelial response to fluid shear stress to validate the phenotype of our isolated human aortic valve endothelial cells. KLF2 and eNOS expression in vascular endothelial cells has been shown to be increased by laminar flow and to have anti-inflammatory effects by decreasing VCAM-1 levels. Conversely, oscillatory shear stress has been shown to increase NF-kappa B translocation and increase ICAM-1 and E-selectin. We found laminar shear stress causes human aortic valve endothelial cells align parallel to flow and have robust increases of KLF2 and eNOS and decreases in VCAM-1 levels; however, laminar shear-treated cells had similar levels of NF-kappa B activation as oscillatory treated cells while ICAM-1 and E-selectin was not affected by shear stress. In contrast, oscillatory shear had higher levels of monocytes bound which may be due to eNOS's protective effects under laminar shear and robust VCAM-1 expression in oscillatory shear. These studies suggest differential regulation of human aortic valvular endothelial cells than published reports on human aortic endothelial cells which adds to the growing evidence that valvular endothelial cells are phenotypically different than vascular endothelial cells. After verifying the shear response of our endothelial cells, we next determined the shear response of the BMPs and BMP antagonists and described BMPs' effect on inflammation. Previously, BMP-4 has been shown in vitro and in vivo to be increased in endothelial cells exposed to oscillatory flow, while the closely-related BMP-2 has not been shown to be shear sensitive. In this study we have found that BMPs -2 and -4 are shear sensitive while BMP-6 is not. Furthermore, we have found that follistatin is decreased by laminar flow only in the ventricularis, while MGP1 is decreased in the fibrosa valvular endothelial cells under both oscillatory and laminar flow. Finally, incubation with noggin did not affect monocyte adhesion after shear, suggesting differential regulation of inflammation in human aortic valvular endothelial cells. By addressing the specific aims of this project, we have investigate disease- and side-dependent valvular endothelial BMP expression in vivo, shear regulation of valvular endothelial inflammation in vitro, and shear regulation of valvular endothelial BMP expression in vitro. Our results suggest that the BMP pathway is playing a role in side specific aortic valve disease development; however, regulation of the BMPs does not appear to be shear regulated in vivo. Other factors that may be affecting BMP production include including pulsatile pressures, bending stresses, cyclic stretch, and humeral stimuli present in the blood of the patients. However, in vitro we have found BMPs -2 and -4 to be shear-regulated in human aortic valvular endothelial cells. Shear-induced inflammation in human aortic valve endothelial cells seems to be VCAM-1-dependent, and BMP-independent. Finally, by identifying factors that are modulated in calcific- and shear-dependent processes, new targets for the early detection of aortic valve disease can be determined and new therapeutics to slow or stop the progression of aortic valve disease may be discovered.

Calcification

Aortic valve

Bone morphogenic proteins

Endothelial cell

Aortic valve Surgery

Biomechanics

Hemodynamics

Vascular endothelium

Bone morphogenetic proteins

Pathology of Calcific Aortic Valve Disease: The Role of Mechanical and Biochemical Stimuli in Modulating the Phenotype of and Calcification by Valvular Interstitial Cells

Yip, Cindy Ying Yin

16 March 2011

Calcific aortic valve disease (CAVD) occurs through multiple mutually non-exclusive mechanisms that are mediated by valvular interstitial cells (VICs). VICs undergo pathological differentiation during the progression of valve calcification; however the factors that regulate cellular differentiation are not well defined. Most commonly recognized are biochemical factors that induce pathological differentiation, but little is known regarding the biochemical factors that may suppress this process. Further, the contribution of matrix mechanics in valve pathology has been overlooked, despite increasing evidence of close relationships between changes in tissue mechanics, disease progression and the regulation of cellular response. In this thesis, the effect of matrix stiffness on the differentiation of and calcification by VICs in response to pro-calcific and anti-calcific biochemical factors was investigated. Matrix stiffness modulated the response of VICs to pro-calcific factors, leading to two distinct calcification processes. VICs cultured on the more compliant matrices underwent calcification via osteoblast differentiation, whereas those cultured on the stiffer matrices were prone to myofibroblast differentiation. The transition of fibroblastic VICs to myofibroblasts increased cellular contractility, which led to contraction-mediated, apoptosis-dependent calcification. In addition, C-type natriuretic peptide (CNP), a putative protective molecule against CAVD, was identified. CNP supressed myofibroblast and osteoblast differentiation of VICs, and thereby inhibited calcification in vitro. Matrix stiffness modulated the expression of CNP-regulated transcripts, with only a small number of CNP-regulated transcripts not being sensitive to matrix mechanics. These data demonstrate the combined effects of mechanical and biochemical cues in defining VIC phenotype and responses, with implications for the interpretation of in vitro models of VIC calcification and possibly disease devleopment. The findings from this thesis emphasize the necessity to consider both biochemical and mechanical factors in order to improve fundamental understanding of VIC biology.

Calcific aortic valve disease

Valvular interstitial cells

Aortic valve

Matrix stiffness

C-type natriuretic peptide

Microarray

0541

Assessment of aortic stenosis with special reference to Doppler ultrasound

Teien, Dag

January 1986

<p>Härtill 5 uppsatser</p> / digitalisering@umu

Aortic stenosis

aortic valve area

transvaivular pressure drop

coronary heart disease

pulmonary capillary wedge pressure

Doppler echocardiography

radionuclide angiography

Effect of valve replacement for aortic stenosis on ventricular function

Zhao, Ying

January 2011

Background：Aortic stenosis (AS) is the commonest valve disease in the West. Aortic valve replacement (AVR) remains the only available management for AS and results in improved symptoms and recovery of ventricular functions. In addition, it is well known that AVR results in disruption of LV function mainly in the form of reversal of septal motion as well as depression of right ventricular (RV) systolic function. The aim of this thesis was to study, in detail, the early and mid-term response of ventricular function to AVR procedures (surgical and TAVI) as well as post operative patients’ exercise capacity. Methods：We studied LV and RV function by Doppler echocardiography and speckle tracking echocardiography (STE) in the following 4 groups; (1) 30 severe AS patients (age 62±11 years, 19 male) with normal LV ejection fraction (EF) who underwent AVR, (2) 20 severe AS patients (age 79±6 years, 14 male) who underwent TAVI, (3) 30 healthy controls (age 63±11 years, 16 male), (4) 21 healthy controls (age 57±9 years, 14 male) who underwent exercise echocardiography. Results: After one week of TAVI, the septal radial motion and RV tricuspid annulus peak systolic excursion (TAPSE) were not different from before, while surgical AVR had significantly reversed septal radial motion and TAPSE dropped by 70% compared to before. The extent of the reversed septal motion correlated with that of TAPSE (r=0.78, p&lt;0.001) in the patients as a whole after AVR and TAVI (Study I). Compared with controls, the LV twist function was increased in AS patients before and normalized after 6 months of surgical AVR. In controls, the LV twist correlated with LV fractional shortening (r=0.81, p&lt;0.001), a relationship which became weak in patients before (r=0.52, p&lt;0.01) and after AVR (r=0.34, p=ns) (Study II). After 6 months of surgical AVR, the reversed septal radial motion was still significantly lower than before. The septal peak displacement also decreased and its time became prolonged. In contrast, the LV lateral wall peak displacement increased and the time to peak displacement was early. The accentuated lateral wall peak displacement correlated with the septal peak displacement time delay (r=0.60, p&lt;0.001) and septal-lateral time delay (r=0.64, p&lt;0.001) (Study III). In 21 surgical AVR patients who performed exercise echocardiography, the LV function was normal at rest but different from controls with exercise. At peak exercise, oxygen consumption (pVO2) was lower in patients than controls. Although patients could achieve cardiac output (CO) and heart rate (HR) similar to controls at peak exercise, the LV systolic and early diastolic myocardial velocities and strain rate as well as their delta changes were significantly lower than controls. pVO2 correlated with peak exercise LV myocardial function in the patients group only, and the systolic global longitudinal strain rate (GLSRs) at peak exercise was the only independent predictor of pVO2 in multivariate regression analysis (p=0.03) (Study IV). Conclusion: Surgical AVR is an effective treatment for AS patients, but results in reversed septal radial motion and reduced TAPSE. The newly developed TAVI procedure maintains RV function which results in preservation of septal radial motion. In AS, the LV twist function is exaggerated, normalizes after AVR but loses its relationship with basal LV function. While the reversed septal motion results in decreased and delayed septal longitudinal displacement which is compensated for by the accentuated lateral wall displacement and the time early. These patients remain suffering from limited exercise capacity years after AVR.

Aortic stenosis

aortic valve replacement

echocardiography

speckle tracking

exercise echocardiography

ventricular function

septal radial motion

twist

displacement

strain

strain rate