Studies of vascular function in patients with heart failure and either preserved or reduced left ventricular systolic function

Balmain, Sean (2008) Studies of vascular function in patients with heart failure and either preserved or reduced left ventricular systolic function. MD thesis, University of Glasgow.

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Abstract

Up to 50% of patients with the clinical syndrome of heart failure have preserved left ventricular systolic function (HF-PSF). Invasive studies utilising cardiac catheterisation have demonstrated that patients with HF-PSF have abnormalities of left ventricular (LV) relaxation and filling, or LV diastolic dysfunction. As a result, it has been proposed that LV diastolic dysfunction is the primary pathophysiological process in HF-PSF. However, population-based studies have shown that there is poor correlation between the presence of LV diastolic dysfunction and the presence of heart failure. This controversy has led to a search for alternative pathophysiological processes which could potentially cause HF-PSF. There are some data to suggest that patients with HF-PSF have a combination of LV diastolic dysfunction, or ‘LV stiffness’, and large artery stiffness, when compared with normal subjects and patients with systemic hypertension. This implies that the interaction between the left ventricle and the vasculature is dysfunctional and a potential cause of HF-PSF. Although there are limited data on arterial stiffness in HF-PSF, there have been no studies examining other parameters of vascular function in HF-PSF and vascular function has never been formally compared in cohorts of patients with HF-PSF and heart failure due to reduced LV systolic function (HF-RSF).
The studies presented in this thesis were designed to further characterise vascular function in HF-PSF and to compare vascular function between patients with HF-PSF, patients with HF-RSF and control subjects. I used non-invasive techniques to assess parameters of arterial function, such as arterial stiffness and arterial endothelial function. I also evaluated parameters of venous function, namely venous capacitance and venous endothelial function.
Arterial stiffness, measured by aortic pulse wave velocity (PWV), was significantly elevated in HF-PSF compared to both HF-RSF and control groups, implying that HF-PSF is indeed associated with greater arterial stiffness. In contrast, arterial diastolic waveform analysis failed to show any significant differences in derived parameters of arterial compliance between the three study groups, which may be due to the fact that all three groups were matched for underlying coronary heart disease, reducing the ability of the technique to differentiate between groups.
Using Laser Doppler iontophoresis, I demonstrated that HF-PSF and HF-RSF subjects have impaired microvascular responses to both acetylcholine and sodium nitroprusside. This suggests that, rather than being solely a primary disorder of endothelial function, impaired control of vascular tone in HF-PSF reflects significant vascular smooth muscle dysfunction. It is not certain if arterial smooth muscle and/or endothelial dysfunction is secondary to the inflammatory and neurohumoral activation associated with the heart failure syndrome, or a primary pathophysiological factor in the development of either form of heart failure.
As regards venous function, patients with HF-PSF had a lower venous capacitance than patients with HF-RSF (but similar venous capacitance to the controls). Increased venous capacitance may represent a compensatory response in heart failure that is less marked or absent in HF-PSF, compared to HF-RSF. Venous endothelial function was measured with the Aellig dorsal hand vein technique. It was not technically possible to complete an Aellig study in the whole patient cohort, resulting in fewer data being available for analysis. Despite this, both heart failure groups appeared to have impaired venodilatation in response to acetylcholine, compared to controls, although this apparent difference was not statistically significant.
While the studies of venous capacitance and endothelial function were not conclusive, they suggest that venous function may be abnormal in HF-PSF. The finding that endothelial and smooth muscle control of arterial tone was impaired in both HF-PSF and HF-RSF may indicate a similar primary pathophysiological process, or indeed a similar response to inflammatory and neurohumoral activation in heart failure. I conclude that the data presented in this thesis supports the hypothesis that HF-PSF is associated with increased arterial stiffness, which in combination with increased LV stiffness is likely to result in impaired ventriculo-vascular coupling. This process is likely to be an important pathophysiological factor in the development of HF-PSF.

Item Type: Thesis (MD)
Qualification Level: Doctoral
Keywords: heart failure, arteries, veins, endothelium
Subjects: R Medicine > R Medicine (General)
Colleges/Schools: College of Medical Veterinary and Life Sciences > School of Cardiovascular & Metabolic Health
Supervisor's Name: McMurray, Professor John JV and Padmanabhan, Dr Neal
Date of Award: 2008
Depositing User: Dr Sean Balmain Balmain
Unique ID: glathesis:2008-282
Copyright: Copyright of this thesis is held by the author.
Date Deposited: 19 Aug 2008
Last Modified: 10 Dec 2012 13:17
URI: https://theses.gla.ac.uk/id/eprint/282

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