Effect of intensive therapy for heart failure on the vasodilator response to exercise

Atorvastatin increases exercise leg blood flow in healthy adults

OBJECTIVES

We sought to examine the effect of atorvastatin therapy on exercise leg blood flow in healthy middle-aged and older-men and women.

BACKGROUND

The vasodilatory response to exercise decreases in humans with aging and disease and this reduction may contribute to reduced exercise capacity.

METHODS

We used a double-blind, randomly assigned, placebo-controlled protocol to assess the effect of atorvastatin treatment on exercising leg hemodynamics. We measured femoral artery blood flow (FBF) using Doppler ultrasound and calculated femoral vascular conductance (FVC) from brachial mean arterial pressure (MAP) before and during single knee-extensor exercise in healthy adults (ages 40-71) before (PRE) and after (POST) 6 months of 80 mg atorvastatin (A: 14 men, 16 women) or placebo (P: 14 men, 22 women) treatment. FBF and FVC were normalized to exercise power output and estimated quadriceps muscle mass.

RESULTS

Atorvastatin reduced LDL cholesterol by approximately 50%, but not in the placebo group (p < 0.01). Atorvastatin also increased exercise FBF from 44.2 ± 19.0 to 51.4 ± 22.0 mL/min/W/kg muscle whereas FBF in the placebo group was unchanged (40.1 ± 16.0 vs. 39.5 ± 16.1) (p < 0.01). FVC also increased with atorvastatin from 0.5 ± 0.2 to 0.6 ± 0.2 mL/min/mmHg/W/kg muscle, but not in the placebo subjects (P: 0.4 ± 0.2 vs. 0.4 ± 0.2) (p < 0.01).

CONCLUSIONS

High-dose atorvastatin augments exercising leg hyperemia. Statins may mitigate reductions in the exercise vasodilatory response in humans that are associated with aging and disease.

Use of pulmonary artery catheters in advanced heart failure

PURPOSE OF REVIEW

Randomized trials have demonstrated that use of the pulmonary artery catheter does not improve outcomes in patients with critical illness. Despite this, pulmonary artery catheters continue to be used, especially in heart failure. This review addresses recent clinical trials evaluating the safety and efficacy of the pulmonary artery catheter. It also offers guidelines on when pulmonary artery catheter use could be considered in patients with advanced heart failure.

RECENT FINDINGS

A meta-analysis demonstrated that use of the pulmonary artery catheter in critically ill patients had no significant impact on morbidity or mortality. In the Evaluation Study of Congestive Heart Failure and Pulmonary Artery Catheterization Effectiveness trial, the addition of the pulmonary artery catheter to careful clinical assessment also had neutral impact. The results of the study are limited, however, by the patient population that was selected for the study, and there still may be a role for the pulmonary artery catheter in advanced heart failure.

SUMMARY

Based on the results of the Evaluation Study of Congestive Heart Failure and Pulmonary Artery Catheterization Effectiveness trial and the meta-analysis, there is no indication for routine use of pulmonary artery catheters to adjust therapy during hospitalization for decompensation of chronic heart failure. There remain many specific clinical situations in heart failure in which the pulmonary artery catheter may be useful, however.

Serial measurements of peripheral vascular reactivity and exercise capacity in congestive heart failure and after heart transplantation

BACKGROUND

The regulation of nutritive blood flow to skeletal muscles during exercise seems to make an important contribution to exercise capacity. In congestive heart failure (CHF) this regulation seems to be impaired, with attenuated peripheral vasodilatory capacity. The results regarding improvement of peripheral vasoreactivity after heart transplantation (HTx) are conflicting, and the contribution of impaired peripheral vasoreactivity to the observed reduced exercise capacity among heart transplant recipients (HTR) has not been well elucidated. We therefore assessed the reversibility of impaired vasoreactivity in forearm and calf after HTx with relationship to exercise capacity.

METHODS AND RESULTS

The vasoreactivity of both forearm and calf was studied with venous occlusion plethysmography and related to exercise capacity in 64 patients with CHF and in 22 controls. Of these patients, 29 patients underwent HTx, and the same measurements were performed 10 days, 6 months and 1 year after HTx, and in a group of 15 HTR who had undergone HTx several years ago. Our main findings were (1) impaired resting blood flow in patients with CHF improved after HTx and even surpassed levels of controls; (2) peak forearm blood flow remained attenuated early after HTx, but normalized during the first year postoperatively; (3) both forearm and calf minimal resistance remained elevated after HTx; (4) vascular reactivity displays regional variations in forearm and calf both during CHF and after HTx; and (5) peripheral vascular reactivity relate to exercise performance in both patients with CHF and HTR, but the relationship seemed more pronounced in CHF.

CONCLUSION

With impaired vasoreactivity related to limited exercise capacity in CHF, improvement is evident after HTx, but both forearm and calf minimal resistance remains elevated. These findings suggest increased vasoconstrictor drive to both exercising and non-exercising muscles, possibly contributing to persistent physical limitation after HTx.

Inhibition of alpha-adrenergic vasoconstriction in exercising human thigh muscles

The mechanisms underlying metabolic inhibition of sympathetic responses within exercising skeletal muscle remain incompletely understood. The aim of the present study was to test whether alpha(2)-adrenoreceptor-mediated vasoconstriction was more sensitive to metabolic inhibition than alpha(1)-vasoconstriction during dynamic knee-extensor exercise. We studied healthy volunteers using two protocols: (1) wide dose ranges of the alpha-adrenoreceptor agonists phenylephrine (PE, alpha(1) selective) and BHT-933 (BHT, alpha(2) selective) were administered intra-arterially at rest and during 27 W knee-extensor exercise (n= 13); (2) flow-adjusted doses of PE (0.3 microg kg(-1) l(-1)) and BHT (15 microg kg(-1) l(-1)) were administered at rest and during ramped exercise (7 W to 37 W; n= 10). Ultrasound Doppler and thermodilution techniques provided direct measurements of femoral blood flow (FBF). PE (0.8 microg kg(-1)) and BHT (40 microg kg(-1)) produced comparable maximal reductions in FBF at rest (-58 +/- 6 versus-64 +/- 4%). Despite increasing the doses, PE (1.6 microg kg(-1) min(-1)) and BHT (80 microg kg(-1) min(-1)) caused significantly smaller changes in FBF during 27 W exercise (-13 +/- 4 versus-3 +/- 5%). During ramped exercise, significant vasoconstriction at lower intensities (7 and 17 W) was seen following PE (-16 +/- 5 and -16 +/- 4%), but not BHT (-2 +/- 4 and -4 +/- 5%). At the highest intensity (37 W), FBF was not significantly changed by either drug. Collectively, these data demonstrate metabolic inhibition of alpha-adrenergic vasoconstriction in large postural muscles of healthy humans. Both alpha(1)- and alpha(2)-adrenoreceptor agonists produce comparable vasoconstriction in the resting leg, and dynamic thigh exercise attenuates alpha(1)- and alpha(2)-mediated vasoconstriction similarly. However, alpha(2)-mediated vasoconstriction appears more sensitive to metabolic inhibition, because alpha(2) is completely inhibited even at low workloads, whereas alpha(1) becomes progressively inhibited with increasing workloads.

Exhaled nitric oxide: a marker of pulmonary hemodynamics in heart failure

OBJECTIVES

We sought to test the hypothesis that patients with decompensated heart failure (HF) lose a compensatory process whereby nitric oxide (NO) maintains pulmonary vascular tone.

BACKGROUND

Exhaled nitric oxide (eNO) partially reflects vascular endothelial NO release. Levels of eNO are elevated in patients with compensated HF and correlate inversely with pulmonary artery pressures (PAP), reflecting pulmonary vasodilatory activity.

METHODS

We measured the mean mixed expired NO content of a vital-capacity breath using chemiluminescence in patients with compensated HF (n = 30), decompensated HF (n = 7) and in normal control subjects (n = 90). Pulmonary artery pressures were also measured in patients with HF. The eNO and PAP were determined sequentially during therapy with intravenous vasodilators in patients with decompensated HF (n = 7) and in an additional group of patients with HF (n = 13) before and during administration of milrinone.

RESULTS

The eNO was higher in patients with HF than in control subjects (9.9 +/- 1.1 ppb vs. 6.2 +/- 0.4 ppb, p = 0.002) and inversely correlated with PAP (r = -0.81, p < 0.00001). In marked contrast, patients with decompensated HF exhibited even higher levels of eNO (20.4 +/- 6.2 ppb) and PAP, but there was a loss of the inverse relationship between these two variables. During therapy (7.3 +/- 6 days) with sodium nitroprusside and diuresis, hemodynamics improved, eNO concentrations fell (11.2 +/- 1.2 ppb vs. before treatment, p < 0.05), and the relationship between eNO and PAP was restored. After milrinone, eNO rose proportionally with decreased PAP (p < 0.05).

CONCLUSIONS

Elevated eNO may reflect a compensatory circulatory mechanism in HF that is lost in patients with clinically decompensated HF. The eNO may be an easily obtainable and quantifiable measure of the response to therapy in advanced HF.

Hemodynamics as surrogate end points for survival in advanced heart failure: an analysis from FIRST

BACKGROUND

Hemodynamics often are used as surrogate end points in phase II trials of acute heart failure (HF). We reviewed the Flolan International Randomized Survival Trial (FIRST) database to identify the hemodynamic variables that best predict survival in patients with advanced HF receiving epoprostenol therapy and to determine whether hemodynamics could predict the overall effect of a drug.

METHODS

The trial enrolled 471 patients with class IIIb/IV HF and ejection fraction <or=25% for >or=3 months, all of whom underwent screening pulmonary artery catheter insertion. Patients were randomly assigned to receive either epoprostenol (n = 201) or placebo (n = 235); epoprostenol therapy was guided by pulmonary artery catheter measures, and standard treatment was guided by clinical findings. Multivariable modeling was used to identify and quantify the demographic, clinical, and hemodynamic variables most associated with 1-year survival.

RESULTS

In multivariable modeling, HF class, decreased pulmonary capillary wedge pressure (PCWP), and age best predicted 1-year survival. After adjustment for age and HF class, decreased PCWP still significantly predicted survival (hazard ratio, 0.96 for every 1-mm Hg decrease; 95% confidence interval, 0.94 to 0.99; P = .003). Survival was significantly higher with decreases in PCWP >or=9 versus <9 mm Hg, even after adjustment for age and HF class. Survival of patients in the PCWP >or=9 group was comparable with, and that of the PCWP <9 group was significantly higher than, survival of patients in the control group (hazard ratio, 1.44; 95% confidence interval, 1.05 to 1.99; P = .024).

CONCLUSIONS

The reduction in PCWP was the hemodynamic measure most predictive of survival in patients with advanced HF. However, patients with a >or=9-mm Hg decrease had no better survival than patients in the control group, who had limited changes in hemodynamics. Thus, improvement in hemodynamics may not predict the overall effect of a drug.

Uric acid in cachectic and noncachectic patients with chronic heart failure: relationship to leg vascular resistance

BACKGROUND

Chronic heart failure (CHF) is a hyperuricemic state, and capillary endothelium is the predominant site of xanthine oxidase in the vasculature. Upregulated xanthine oxidase activity (through production of toxic free radicals) may contribute to impaired regulation of vascular tone in CHF. We aimed to study the relationship between serum uric acid levels and leg vascular resistance in patients with CHF with and without cachexia and in healthy control subjects.

METHODS

In 23 cachectic and 44 noncachectic patients with CHF (age, 62 +/- 1 years, mean +/- SEM) and 10 healthy control subjects (age, 68 +/- 1 years), we assessed leg resting and postischemic peak vascular resistance (calculated from mean blood pressure and leg blood flow by venous occlusion plethysmography).

RESULTS

Cachectic patients, compared with noncachectic patients and control subjects, had the highest uric acid levels (612 +/- 36 vs 459 +/- 18 and 346 +/- 21 micromol/L, respectively, both P <.0001) and the lowest peak leg blood flow and vascular reactivity (reduction of leg vascular resistance from resting to postischemic conditions: 83% vs 88% and 90%, both P <.005). In all patients, postischemic vascular resistance correlated significantly and independently of age with uric acid (r = 0.61), creatinine (r = 0.47, both P <.0001), peak VO2 (r = 0.34), and New York Heart Association class (r = 0.33, both P <.01). This correlation was not present in healthy control subjects (r = -0.04, P =.9). In multivariate and stepwise regression analyses, serum uric acid emerged as the strongest predictor of peak leg vascular resistance (standardized coefficient = 0.61, P <.0001) independent of age, peak VO2, creatinine, New York Heart Association class, and diuretic dose.

CONCLUSIONS

Hyperuricemia and postischemic leg vascular resistance are highest in cachectic patients with CHF, and both are directly related independent of diuretic dose and kidney function. The xanthine oxidase metabolic pathway may contribute to impaired vasodilator capacity in CHF.

Heart failure etiology affects peripheral vascular endothelial function after cardiac transplantation

OBJECTIVES

The goal of this study was to examine the effect of heart failure etiology on peripheral vascular endothelial function in cardiac transplant recipients.

BACKGROUND

Peripheral vascular endothelial dysfunction occurs in patients with heart failure of either ischemic or nonischemic etiology. The effect of heart failure etiology on peripheral endothelial function after cardiac transplantation is unknown.

METHODS

Using brachial artery ultrasound, endothelium-dependent, flow-mediated dilation (FMD) was assessed in patients with heart failure with either nonischemic cardiomyopathy (n = 10) or ischemic cardiomyopathy (n = 7), cardiac transplant recipients with prior nonischemic cardiomyopathy (n = 10) or prior ischemic cardiomyopathy (n = 10) and normal controls (n = 10).

RESULTS

Patients with heart failure with either ischemic cardiomyopathy or nonischemic cardiomyopathy had impaired FMD (3.6 +/- 1.0% and 5.1 +/- 1.2%, respectively, p = NS) compared with normal subjects (13.9 +/- 1.3%, p < 0.01 compared with either heart failure group). In transplant recipients with antecedent nonischemic cardiomyopathy, FMD was markedly higher than that of heart failure patients with nonischemic cardiomyopathy (13.0 +/- 2.4%, p < 0.001) and similar to that of normal subjects (p = NS). However, FMD remained impaired in transplant recipients with prior ischemic cardiomyopathy (5.5 +/- 1.5%, p = 0.001 compared with normal, p = 0.002 vs. transplant recipients with previous nonischemic cardiomyopathy).

CONCLUSIONS

Peripheral vascular endothelial function is normal in cardiac transplant recipients with antecedent nonischemic cardiomyopathy, but remains impaired in those with prior ischemic cardiomyopathy. In contrast, endothelial function is uniformly abnormal for patients with heart failure, regardless of etiology. These findings indicate that cardiac transplantation corrects peripheral endothelial function for patients without ischemic heart disease, but not in those with prior atherosclerotic coronary disease.