Chronic Heart Failure Clinical Trial
Official title:
Effects of Interval Training on Hormonal Pathways in Chronic Heart Failure
The investigators aim at investigating whether 24-week high intensity interval training might exert beneficial effects by modulating neurohormonal axis in patients with chronic heart failure (CHF). Furthermore, the effect of detraining on neurohormonal axis in CHF patients will be evaluated.
According to European Society of Cardiology the prevalence of Heart Failure (HF) is between 2
and 3% in general population and increases with age, so the prevalence in 70- to 80-years-old
people is between 10 and 20%. HF is the cause of 5% of acute hospital admissions, is present
in 10% of patients in hospital beds, and accounts for high national expenditure on health,
mostly due to the cost of hospital admissions. Although some patients can live for many years
and the great improvement of medical therapy during last decades, overall 50% of patients are
dead at 4 years.
Despite different hypothesis that explain the underlying physiopathology of heart failure
have been proposed over time, no single paradigm for heart failure was established
definitively. One logical explanation of the inability to define the syndrome of heart
failure in precise mechanistic model is that the clinical syndrome of heart failure almost
certainly represents the summation of multiple anatomic, functional, and biological
alterations that interact together in a complex way. Thus, it is not surprising that
investigators have used a variety of complex model in an attempt to describe the syndrome of
heart failure. Nowadays, the most accepted hypothesis explaining HF physiopathology and its
progression is the "neurohormonal model". According to this paradigm, heart failure
progresses as a result of the overexpression of biologically active molecules that exert
toxic effects on the heart and circulation. A variety of molecules including norepinephrine,
angiotensin II, endothelin, aldosterone, and tumor necrosis factor have been implicated as
some of the factors that contribute to disease progression in the failing heart.
Despite the effectiveness of the neurohormonal model to explain disease progression and the
many insights that it provided for the development of new therapies, there is increasing
clinical evidence that suggests that our current models fail to completely explain disease
progression. Thus, neurohormonal models may be necessary but not sufficient to explain all
aspects of disease progression in the failing heart.
Because the prognosis of HF patients is still unsatisfactory despite optimal therapies, other
mechanisms that contribute to HF progression need to be elucidated. Mounting evidence suggest
that in heart failure there is a metabolic imbalance characterized by a predominance of the
catabolic status over anabolic drive. The most impressive example is seen in end-stage HF
known as "cardiac cachexia" characterized by strong weight loss, particularly lean mass and
rapid deterioration of clinical conditions, attributed to a prevalence of catabolic pathways.
If the hormonal imbalance is an epiphenomenon or an important pathophysiological mechanism in
the HF progression is still matter of debate.
In particular deficit of each anabolic axis (adrenal, gonadal and somatotropic axes) is an
independent marker of poor prognosis in HF patients and the coexistence of more than one
deficiency identifies a subgroup of patients with a higher mortality.
The most involved hormonal axes include growth hormone (GH), its tissue effector insulin-like
growth factor-1 (IGF-1), thyroid hormone, and anabolic steroids. Taken together, these
alterations could be recognized as a multiple hormonal and metabolic deficiency syndrome
(MHD) in HF patients. MHD has a significant impact on cardiac performance and HF progression.
The most involved hormonal axes include growth hormone (GH), its tissue effector insulin-like
growth factor-1 (IGF-1), thyroid hormone, and anabolic steroids. Taken together, these
alterations could be recognized as a multiple hormonal and metabolic deficiency syndrome
(MHD) in HF patients. MHD has a significant impact on cardiac performance and HF progression.
Moreover, a pattern of Insulin-resistance (IR) is quite common in diabetic as well as
non-diabetic CHF patients. IR has been found in about 30% of non-diabetic CHF patients and
was related to underlying disease severity. Few studies have considered reduction of IR as a
new therapeutic target.
In brief, it could be argued that CHF patients showed an anabolic/catabolic imbalance due to
multiple neurohormonal axis disequilibrium. Anabolic hormonal deficiency is usually described
in men with chronic heart failure (CHF) contributing to the anabolic/catabolic imbalance
ultimately resulting in skeletal muscle waist and cardiac cachexia. Counteracting the
anabolic deficit seems to play beneficial clinical effects in CHF patients. In fact, the
increase of serum levels of testosterone and growth hormone (GH)/insulin-like growth factor 1
(IGF-1) axis obtained by hexogen administration, improves key symptoms of CHF such as
exercise intolerance and muscle fatigue and positively impact quality of life. Besides the
hexogen administration, an increase of the levels of anabolic hormones can be obtained
through physical exercise. In healthy subjects, testosterone may increase remarkably as an
acute response to both endurance and heavy resistance exercise. Similarly, GH concentrations
generally increase in response to both strength and endurance exercise thereby stimulating
IGF-1 production. Although this hormonal modulation could be one of the mechanisms by which
exercise training exerts its beneficial effects on CHF patients, there are few data on
endogenous exercise-induced increase of anabolic hormones in such patients.
Aside from the nature of the training activity, the effects of training may vary with
different dose parameters, specifically program length, session duration and frequency and
workload or intensity. In the most severely impaired patients, with initial exercise
intolerance, sessions may initially be limited to 3-5 minutes duration with 3 or 4 sessions
completed during the course of the day; however, recent work has suggested that if total
exercise energy expenditure is standardized then intermittent exercise training programs may
elicit superior benefits to heart failure patients compared to continuous exercise training
sessions.
High intensity, repeated intermittent work periods separated by recovery periods have been
shown to be efficacious in heart failure patients, and interval stress has been shown to be
as effective as continuous workloads in older, healthy and post coronary artery bypass
surgery populations. In a systematic review of 81 heart failure ExT studies only two of these
reported peak VO2 changes of 10% and 20% respectively compared with 16.5% overall change in
continuous exercise training and similar improvements with strength training. The underlying
theory is that higher intensity, intermittent stress is more likely to promote peripheral
adaptations and produce concurrent improvements in functional capacity. Recent work has shown
that reductions of brain natriuretic peptide, a marker of myocardial stretch, may be greater
in high intensity (90% peak VO2), rather than moderate intensity (70% peak VO2) exercise
training in patients with severe left ventricular dysfunction. A recent meta-analysis showed
that intermittent exercise elicits superior improvements in peak VO2 and VE/VCO2 slope
compared to continuous exercise training in heart failure patients.
Few studies evaluated the hormonal response to interval training in CHF. However, the
relatively small sample size, the lack of control group or the relatively short time exercise
intervention limits the conclusions.
The present study aims at investigating whether 24-week high intensity interval training
might exert beneficial effects by modulating neurohormonal axis in CHF patients. Furthermore,
the effect of detraining on neurohormonal axis in CHF patients will be evaluated.
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