Garry L. Jennings

Adverse consequences of high sympathetic nervous activity in the failing human heart

OBJECTIVES In view of previous experimental evidence relating sympathetic nervous overactivity in the heart to myocardial necrosis and ventricular arrhythmias, we prospectively examined the hypothesis that heightened cardiac sympathetic nervous activity is associated with an adverse outcome in patients with moderate to severe heart failure. BACKGROUND Despite recent therapeutic advances, patients with heart failure continue to have high mortality from progressive hemodynamic decompensation and lethal ventricular arrhythmias. It is believed that initially compensatory increases in sympathetic nervous system activity may ultimately be maladaptive, potentially contributing to subsequent adverse events. METHODS Sixty patients with moderate to severe heart failure (left ventricular ejection fraction 18.9 +/- 0.9% [mean +/- SE]) were studied prospectively. In addition to the compilation of a hemodynamic, biochemical and electrocardiographic profile for each patient, whole-body and cardiac sympathetic activity were determined by isotope dilution. The relation of these variables to outcome was determined by Cox proportional hazards analysis. RESULTS The mean follow-up period of the study group was 7 +/- 1 months (range 1 to 24) with a 12-month actuarial survival of 75%. Deaths (14 in all) were accounted for either by sudden death or progressive heart failure in equal numbers. The rate of release of norepinephrine from the heart was significantly higher in patients with heart failure than in healthy subjects (402 +/- 37 vs. 105 +/- 19 pmol/min, p < 0.01), although the values for heart failure ranged widely from normal to 10 times normal. By univariate Cox proportional hazards analysis, pulmonary capillary wedge pressure (p < 0.01), mean pulmonary artery pressure (p < 0.001), serum sodium levels (p < 0.01) and cardiac norepinephrine spill-over rate (p < 0.001) were identified as significant prognostic markers. In a multivariate analysis, cardiac norepinephrine spillover rate was identified as the most powerful prognostic marker (p = 0.0006) of those evaluated in this study. CONCLUSIONS These results suggest that activation of the sympathetic nervous system in patients with heart failure, specifically the cardiac sympathetic nerves, may contribute to the poor prognosis associated with severe heart failure. The data therefore provide a rationale for the use of drugs such as beta-adrenergic blocking agents in the management of patients with heart failure.

Evidence of a Selective Increase in Cardiac Sympathetic Activity in Patients with Sustained Ventricular Arrhythmias

BACKGROUND Although enhanced efferent cardiac sympathetic nervous activity has been proposed as an important factor in the genesis of ventricular arrhythmias and sudden cardiac death, direct clinical evidence has been lacking. METHODS We measured the rates of total and cardiac norepinephrine spillover into the plasma, which reflect respectively overall and cardiac sympathetic nervous activity, in 12 patients who had recovered from a spontaneous, sustained episode of ventricular tachycardia or ventricular fibrillation outside the hospital 4 to 48 days earlier. The results were compared with those from three age-matched reference groups without a history of ventricular arrhythmias: 12 patients with coronary artery disease, 6 patients with chest pain but normal coronary arteries, and 12 healthy, normal subjects. RESULTS The patients who had had ventricular arrhythmias had reduced left ventricular ejection fractions, as compared with the patients with coronary artery disease or chest pain (mean [+/- SE], 46 +/- 3 percent vs. 58 +/- 4 percent and 69 +/- 5 percent, respectively; P less than 0.003). The rates of total norepinephrine spillover into the plasma were similar in the three reference groups, but 80 percent higher in the patients with ventricular arrhythmias (P less than 0.005). The rate of cardiac norepinephrine spillover was 450 percent higher in these patients (176 +/- 39 pmol per minute, as compared with 32 +/- 8 pmol per minute in the normal subjects; P less than 0.001), a disproportionate increase relative to the increase in total spillover, which indicated selective activation of the cardiac sympathetic outflow. This increase in cardiac norepinephrine spillover was probably caused by a reduction in left ventricular function. CONCLUSIONS These results suggest that in some patients major ventricular arrhythmias are associated with and perhaps caused by sustained and selective cardiac sympathetic activation. We speculate that depressed ventricular function was present before the ventricular arrhythmia occurred, and that this resulted in reflex cardiac sympathetic activation, which in turn contributed to the genesis of the arrhythmia.

Heart rate spectral analysis, cardiac norepinephrine spillover, and muscle sympathetic nerve activity during human sympathetic nervous activation and failure.

Although heart rate variability (HRV) at 0.1 Hz has been proposed as a noninvasive clinical measure of cardiac sympathetic nerve firing, this premise has not been sufficiently validated by comparison with techniques such as microneurography and the measurement of norepinephrine spillover from the heart that more directly reflect presynaptic sympathetic activity. Methods and ResultsWe compared the three techniques under conditions of effective cardiac sympathetic denervation, pure autonomic failure (n=4), dopamine β-hydroxylase deficiency (n= 1), and after cardiac transplantation (n=9) as well as in the context of sympathetic nervous activation in cardiac failure (n= 15) and with aging (n= 10). Age-matched comparisons were made in each case with healthy individuals drawn from a pool of 52 volunteers. In pure autonomic failure and early after transplantation, cardiac norepinephrine spillover was negligible, and HRV was low. Late after transplantation, however, cardiac norepinephrine spillover returned to normal levels, and HRV remained low. In comparison to younger subjects (18 to 35 years old), older individuals (60 to 75 years old) had higher muscle sympathetic nerve activity (young, 22.9±1.9; old, 31.3±5.8 bursts per minute; P < .05) and cardiac norepinephrine spillover (young, 14.3±2.5; old, 20.1±3.0 ng/min; P < .05). In contrast, total HRV was reduced by 89%, and at 0.1 Hz it was reduced by 93% (P < .05). Cardiac failure was also characterized by elevated cardiac norepinephrine spillover (cardiac failure patients, 59±4; healthy volunteers, 18±3 ng/min; P < .01) but reduced 0.1 Hz HRV (cardiac failure patients, 49±17; healthy volunteers, 243±4 ms2; P < .05). ConclusionsHRV at 0.1 Hz depends on factors in addition to cardiac sympathetic nerve firing rates, including multiple neural reflexes, cardiac adrenergic receptor sensitivity, postsynaptic signal transduction, and electrochemical coupling, and is not directly related to cardiac norepinephrine spillover, which is a more direct measure of the sympathetic nerve firing rate.

Regional Sympathetic Nervous Activity and Oxygen Consumption in Obese Normotensive Human Subjects

BACKGROUND Disturbed sympathetic nervous function may be of importance in obesity; sympathetic underactivity could contribute to deficient thermogenesis, positive energy balance, and weight gain, while in contrast, sympathetic nervous overactivity would predispose to the development of obesity-related hypertension. Global indices of sympathetic nervous system (SNS) function such as plasma or urinary norepinephrine (NE) have been unable to define SNS status in obesity. Since regional SNS activity can be altered in the absence of global changes, we investigated SNS activity in the heart, kidneys, and hepatomesenteric bed in healthy human subjects across a wide body mass index (BMI) range of between 19.6 and 35.5. METHODS AND RESULTS Whole-body and regional plasma NE kinetics using [3H]-labeled NE were assessed. Regional oxygen consumption was measured by combining arteriovenous differences in oxygen content and regional blood flow. Arterial plasma NE and whole-body plasma NE spillover were unrelated to BMI. With a BMI cutoff of 27, mean cardiac NE spillover was 46% lower in the obese subjects when compared with the lean subjects (P=.017). Renal NE spillover was significantly correlated with BMI (r=.668, P=.001), the mean value in the obese subjects being more than twice that in the lean subjects. Hepatomesenteric NE spillover was comparable in lean and obese subjects. Renal and hepatomesenteric oxygen consumption were both significantly higher in the obese subjects compared with lean subjects. CONCLUSIONS Regional SNS activity is heterogeneous in the obese state. Important regional alterations, which may be clinically relevant, occur in the absence of changes in global indices of sympathetic nervous function. The enhanced renal NE spillover in obesity may have implications for the development of hypertension in this group, whereas the low cardiac sympathetic tone would be expected to be cardioprotective. Enhanced visceral oxygen consumption evident in the kidneys and hepatomesenteric circulation in proportion to body mass contributes to the greater resting oxygen consumption in obesity.

Determination of norepinephrine apparent release rate and clearance in humans.

A method for estimating the rate of entry of norepinephrine into plasma (norepinephrine apparent release rate) and clearance of norepinephrine from plasma in humans is presented. The procedure involves the intravenous infusion of tritiated l-norepinephrine, of sufficiently high specific activity to avoid elevating blood pressure, until plateau concentration is reached in plasma, and measurement of norepinephrine specific activity under steady state conditions. In ten normal subjects at rest, the apparent release rate of norepinephrine was 0.54 ± 0.20 μg/m2/min. (mean ± standard deviation). It was significantly lower in four patients with idiopathic peripheral autonomic insufficiency, 0.19 ± 0.12 μg/m2/min., but in the latter, despite reduced norepinephrine release, plasma norepinephrine concentration was near normal because of slowed clearance of norepinephrine from the circulation, 1.69 ± 0.44 l/min. compared with 2.80 ± 0.73 l/min. in normal subjects (p<0.05). In four normal subjects given the norepinephrine uptake inhibitor, desipramine, to slow removal of norepinephrine from the circulation, again the plasma concentration of neurotransmitter was higher than would be expected from the existing apparent release rate of norepinephrine. The findings suggest that methods which measure the dynamic processes of norepinephrine release and removal quantify sympathetic nervous activity better than steady state plasma norepinephrine measurements alone.

Effect of sunlight and season on serotonin turnover in the brain

Alterations in monoaminergic neurotransmission in the brain are thought to underlie seasonal variations in mood, behaviour, and affective disorders. We took blood samples from internal jugular veins in 101 healthy men, to assess the relation between concentration of serotonin metabolite in these samples and weather conditions and season. We showed that turnover of serotonin by the brain was lowest in winter (p=0.013). Moreover, the rate of production of serotonin by the brain was directly related to the prevailing duration of bright sunlight (r=0.294, p=0.010), and rose rapidly with increased luminosity. Our findings are further evidence for the notion that changes in release of serotonin by the brain underlie mood seasonality and seasonal affective disorder.

Neural mechanisms in human obesity-related hypertension.

OBJECTIVE Two hypotheses concerning mechanisms of weight gain and of blood pressure elevation in obesity were tested. The first hypothesis is that in human obesity sympathetic nervous system underactivity is present, as a metabolic basis for the obesity. The second hypothesis, attributable to Landsberg, is that sympathetic nervous activation occurs with chronic overeating, elevating blood pressure. These are not mutually exclusive hypotheses, since obesity is a heterogeneous disorder. DESIGN AND METHODS Whole body and regional sympathetic nervous system activity, in the kidneys and heart, was measured at rest using noradrenaline isotope dilution methodology in a total of 86 research voluteers in four different subject groups, in lean and in obese people who either did, or did not, have high blood pressure. RESULTS In the lean hypertensive patients, noradrenaline spillover for the whole body, and from the heart and kidneys was substantially higher than in the healthy lean volunteers. In normotensive obesity, the whole body noradrenaline spillover rate was normal, mean renal noradrenaline spillover was elevated (twice normal), and cardiac noradrenaline spillover reduced by approximately 50%. In obesity-related hypertension, there was elevation of renal noradrenaline spillover, comparable to that present in normotensive obese individuals but not accompanied by suppression of cardiac noradrenaline spillover, which was more than double that of normotensive obese individuals (P<0.05), and 25% higher than in healthy volunteers. There was a parallel elevation of heart rate in hypertensive obese individuals. CONCLUSIONS The sympathetic underactivity hypothesis of obesity causation now looks untenable, as based on measures of noradrenaline spillover, sympathetic nervous system activity was normal for the whole body and increased for the kidneys; the low sympathetic activity in the heart would have only a trifling impact on total energy balance. The increase in renal sympathetic activity in obesity may possibly be a necessary cause for the development of hypertension in obese individuals, although clearly not a sufficient cause, being present in both normotensive and hypertensive obese individuals. The discriminating feature of obesity-related hypertension was an absence of the suppression of the cardiac sympathetic outflow seen in normotensive obese individuals. Sympathetic nervous changes in obesity-related hypertension conformed rather closely to those expected from the Landsberg hypothesis.

Differences between pathological and physiological cardiac hypertrophy: novel therapeutic strategies to treat heart failure.

1 In general, cardiac hypertrophy (an increase in heart mass) is a poor prognostic sign. Cardiac enlargement is a characteristic of most forms of heart failure. Cardiac hypertrophy that occurs in athletes (physiological hypertrophy) is a notable exception. 2 Physiological cardiac hypertrophy in response to exercise training differs in its structural and molecular profile to pathological hypertrophy associated with pressure or volume overload in disease. Physiological hypertrophy is characterized by normal organization of cardiac structure and normal or enhanced cardiac function, whereas pathological hypertrophy is commonly associated with upregulation of fetal genes, fibrosis, cardiac dysfunction and increased mortality. 3 It is now clear that several signalling molecules play unique roles in the regulation of pathological and physiological cardiac hypertrophy. 4 The present review discusses the possibility of targeting cardioprotective signalling pathways and genes activated in the athletes heart to treat or prevent heart failure.

Intensive cholesterol reduction lowers blood pressure and large artery stiffness in isolated systolic hypertension

OBJECTIVES We sought to investigate the effects of intensive cholesterol reduction on large artery stiffness and blood pressure in normolipidemic patients with isolated systolic hypertension (ISH). BACKGROUND Isolated systolic hypertension is associated with elevated cardiovascular morbidity and mortality and is primarily due to large artery stiffening, which has been independently related to cardiovascular mortality. Cholesterol-lowering therapy has been efficacious in reducing arterial stiffness in patients with hypercholesterolemia, and thus may be beneficial in ISH. METHODS In a randomized, double-blinded, cross-over study design, 22 patients with stage I ISH received three months of atorvastatin therapy (80 mg/day) and three months of placebo treatment. Systemic arterial compliance was measured noninvasively using carotid applanation tonometry and Doppler velocimetry of the ascending aorta. RESULTS Atorvastatin treatment reduced total and low-density lipoprotein cholesterol and triglyceride levels by 36 +/- 2% (p < 0.001), 48 +/- 3% (p < 0.001) and 23 +/- 5% (p = 0.003), respectively, and increased high density lipoprotein cholesterol by 7 +/- 3% (p = 0.03). Systemic arterial compliance was higher after treatment (placebo vs. atorvastatin: 0.36 +/- 0.03 vs. 0.43 +/- 0.05 ml/mm Hg, p = 0.03). Brachial systolic blood pressure was lower after atorvastatin treatment (154 +/- 3 vs. 148 +/- 2 mm Hg, p = 0.03), as were mean (111 +/- 2 vs. 107 +/- 2 mm Hg, p = 0.04) and diastolic blood pressures (83 +/- 1 vs. 81 +/- 2 mm Hg, p = 0.04). There was a trend toward a reduction in pulse pressure (71 +/- 3 vs. 67 +/- 2 mm Hg, p = 0.08). CONCLUSIONS Intensive cholesterol reduction may be beneficial in the treatment of patients with ISH and normal lipid levels, through a reduction in large artery stiffness.

The effects of changes in physical activity on major cardiovascular risk factors, hemodynamics, sympathetic function, and glucose utilization in man: a controlled study of four levels of activity.

The effects of four levels of activity on heart rate, blood pressure, cardiac index, total peripheral resistance index (TPRI), norepinephrine (NE) spillover rate, insulin sensitivity, and levels of lipids and some hormones were studied in 12 normal subjects. The randomized periods were (1) 4 weeks of below-sedentary activity, (2) 4 weeks of sedentary activity, (3) 4 weeks of 40 min of bicycling three times per week, and (4) 4 weeks of similar bicycling seven times per week. Exercise three times per week reduced resting blood pressure by 10/7 mm Hg (p less than .01) and it was reduced by 12/7 mm Hg after exercise seven times per week (both p less than .01). This was associated with reduction in TPRI, an increase in cardiac index, and cardiac slowing. At the highest level of activity, NE spillover rate, an index of sympathetic activity, fell to 35% of the sedentary value (p less than .001) in eight of 10 subjects. In two other subjects NE spillover rate rose, although blood pressure and TPRI were reduced. Metabolic changes included lowering of total cholesterol, but high-density lipoprotein level was unchanged. Insulin sensitivity rose by 27% after exercise three times per week, but declined to sedentary levels with seven times per week exercise. Maximum oxygen uptake increased linearly with activity. Exercise performed three times per week lowers blood pressure and should reduce cardiovascular risk. The same exercise seven times per week enhances physical performance with little further reduction in cardiovascular risk factors. Exercise is potentially a major nonpharmacologic method of lowering blood pressure.