Background
Reduced cardiac output is traditionally believed to be the main determinant of worsening renal function (WRF) in advanced decompensated heart failure (ADHF).
Objective
To determine if venous congestion, rather than impairment of cardiac output, is primarily associated with the development of WRF in ADHF.
Methods
A total of 145 consecutive patients admitted with ADHF treated with intensive medical therapy guided by pulmonary artery catheter were studied. WRF was defined as an increase of serum creatinine ≥0.3 mg/dl during hospitalization.
Results
In the study cohort (age 57 ±14 years, cardiac index 1.9 ±0.6 l/kg.m2, LVEF 20 ±8%, serum creatinine 1.7 ±0.9 mg/dl), 58 patients (40%) developed WRF. Patients who developed WRF had a higher central venous pressure on admission (CVP, 18 ±7 versus 12 ±6 mmHg, p<0.001) and after intensive medical therapy (11 ±8 versus 8 ±5 mmHg, p=0.04). The development of WRF occurred less frequently in patients that achieved a CVP <8 mmHg (p=0.01). Furthermore, the ability of CVP to stratify risk for development of WRF was apparent across the spectrum of systemic blood pressure, pulmonary capillary wedge pressure, cardiac index, and estimated glomerular filtration rates.
Conclusions
Venous congestion is the most important hemodynamic factor driving WRF in decompensated patients with advanced heart failure.
Elevated IAP is prevalent in patients with ADHF and is associated with impaired renal function. In the setting of intensive medical therapy for ADHF, changes in IAP were better correlated with changes in renal function than any hemodynamic variable.
Background
RV dysfunction frequently occurs and independently prognosticates in left-sided HF. It is not clear which right ventricular (RV) afterload measure has the greatest impact on RV function and prognosis. We examined the determinants, prognostic role and response to treatment of pulmonary arterial capacitance (PAC, ratio of stroke volume over pulmonary pulse pressure), in relation to pulmonary vascular resistance (PVR) in heart failure (HF).
Methods and Results
We reviewed 724 consecutive patients with HF who underwent right heart catheterization between 2000 and 2005. Changes in PAC were explored in an independent cohort of 75 subjects treated for acute decompensated HF. PAC showed a strong inverse relation with PVR (r=−0.64) and wedge pressure (r=−0.73), and provides stronger prediction of significant RV failure than PVR (AUC ROC 0.74 vs 0.67 respectively, p = 0.003). During a mean follow-up of 3.2 ± 2.2 years, both lower PAC (p<0.0001) and higher PVR (p<0.0001) portend more adverse clinical events (all-cause mortality and cardiac transplantation). In multivariate analysis, PAC (but not PVR) remains an independent predictor (Hazard ratio =0.92 [95% confidence interval: 0.84–1.0, p=0.037]). Treatment of HF resulted in a decrease in PVR (270±165 to 211±88 dynes·sec·cm−5, p=0.002), a larger increase in PAC (1.65±0.64 to 2.61±1.42 ml/mmHg, p<0.0001), leading to an increase in pulmonary arterial time constant (PVR × PAC) (0.29±0.12 to 0.37±0.15 sec, p<0.0001).
Conclusions
PAC bundles the effects of PVR and left sided filling pressures on RV afterload, explaining its strong relation with RV dysfunction, poor long-term prognosis, and response to therapy.
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