Diastolic Dysfunction Clinical Trial
Official title:
Markers of Oxidative Stress Present in Blood in Patients With Diastolic Dysfunction
This study is to look at the differences between people who have evidence of abnormal heart
relaxation (diastolic dysfunction) on sound wave pictures of the heart (an echocardiogram)
compared to those who do not. If you have abnormal relaxation, it can be a cause of
shortness of breath or can be present without knowing about it.
A condition known as oxidative stress mayb e associated with this abnormal relaxation. This
condition occurs when abnormal oxygen injures heart cells. We would like to learn if
patients with abnormal relaxation have increased oxidative stress.
Background
Introduction:
The incidence of congestive heart failure (CHF) has been increasing significantly. Between
1971 and 1994, the crude hospitalization rate for heart failure increased from 8.2 to 33.8
per 1000 suggesting a marked rise in the prevalence of this condition.1,2 Furthermore, data
from the Framingham study suggest that the incidence of CHF doubles with each advancing
decade of age after 45.2 About 43% of individuals with CHF have normal systolic function, or
diastolic heart failure.3 The occurrence of diastolic heart failure is more frequent in
women and individuals with hypertension, coronary artery disease, obesity, and diabetes
mellitus and is associated with a significant increase in mortality.
Diastolic heart failure and diastolic dysfunction are common disorders, characterized by
delayed ventricular relaxation and increased diastolic stiffness in the absence of systolic
dysfunction. Nitric oxide (NO•) may contribute to the pathophysiology of these disorders as
well as many other processes. In peripheral tissue, NO is a potent vasodilator produced by
endothelial cells and is thought to mediate vascular relaxation in response to
acetylcholine, bradykinin, and substance P. In multiple animal model studies, endothelial
production of NO• has disproportionately enhances diastolic left ventricular function
without a substantial effect on early systolic pressure development. This was shown in
ferret papillary muscles in response to Substance P and recapitulated in mouse models using
a cGMP analogue as a surrogate for NO•.
Both diastolic dysfunction and diastolic heart failure are intimately related to
hypertension. Recently, we have observed increased oxidative stress and decreased NO•
availability in a mouse model that develop diastolic dysfunction. Specifically, in a
deoxycorticosterone-induced hypertensive mouse, in which diastolic dysfunction develops,
there is evidence of endothelial nitric oxide synthase (eNOS) dysfunction that can be
prevented by addition of a reduced cofactor, tetrahydrobiopterin (BH4). It is well known
that hypertension is associated with increased oxidative stress and BH4 oxidation. When BH4
is oxidized, eNOS ceases to make NO•. We believe that when this happens in the myocardium,
the lack of cardiac NO• results in diastolic dysfunction that will be treatable with BH4
supplementation. A corollary of this hypothesis is that humans with diastolic dysfunction
will be more oxidized than those case matched controls without diastolic dysfunction (figure
1).
There are several ways to measure oxidative stress in humans. Among the most convenient and
least invasive are to measure lipid peroxides (derivatives of reactive oxygen metabolites,
dROMs), isoprostanes, and oxidized and reduced glutathione ratios. Glutathione is an
important water-phase antioxidant and essential cofactor for antioxidant enzymes. It
provides protection endogenous oxygen radicals. Since glutathione can exist in oxidized and
reduced forms, it can serve as a buffer for increased oxidative stress. Moreover, the
relative amounts of these two forms are a reflection of the oxidative state of humans.
Recently, we have submitted a manuscript showing that we can effectively measure oxidative
stress out of the blood of patients and that this measure differentiates between people with
an without atrial fibrillation, an abnormal heart beat for which there is growing evidence
that oxidative stress plays a role.
Objectives:
Based on the discussion above, we hypothesize that patients with diastolic dysfunction will
show higher levels of blood oxidative stress than a case matched control group. This will be
tested by comparing oxidative stress markers from the blood of patients with and without
diastolic dysfunction. The study design will be a case-control format with controls matched
for age (by decade), smoking, and diabetes. If the hypothesis is true, it could lead to new,
more effective treatments for cardiac diastolic dysfunction.
;
Observational Model: Case Control, Time Perspective: Prospective
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