Effects of dopamine and epinephrine infusions on renal hemodynamics in severe malaria and severe sepsis
- 1 May 2000
- journal article
- clinical trial
- Published by Wolters Kluwer Health in Critical Care Medicine
- Vol. 28 (5), 1353-1362
- https://doi.org/10.1097/00003246-200005000-00016
Abstract
To describe and compare the effects of dopamine and epinephrine in various doses on renal hemodynamics and oxygen transport in patients with severe malaria and severe sepsis. Prospective, controlled, crossover trial. The intensive care unit of an infectious diseases hospital in Viet Nam. Fourteen patients with severe falciparum malaria and five with severe sepsis. In an open, crossover design, we observed the effects on renal and systemic hemodynamics and oxygen transport of separate stepped infusions of epinephrine and dopamine. We measured renal blood flow (RBF) and cardiac output by the thermodilution method using fluoroscopically guided catheters. Creatinine clearance at each time point was calculated from the renal plasma flow and the renal arteriovenous difference in plasma creatinine. Dopamine at a "renal" dose (2.5 μg/kg/min) was associated with a mean (95% confidence interval) fractional increase in the absolute renal blood flow index (RBFI) of 37% (13% to 61%) and in RBF as a fraction of cardiac output (RBF/CO) of 35% (10% to 59%; p = .007 and p = .014, respectively). The consequent 39% (14% to 64%) increase in renal oxygen supply (p = .002) was accompanied by a 32% (20% to 44%) decrease in the renal oxygen extraction ratio (p = .0003), leading to no net change in renal oxygen consumption. At higher doses (10 μg/kg/min), both RBF and RBF/CO were not significantly different from baseline values and decreased further as the dose was reduced again. There was no obvious explanation for this hysteresis. There was no change in renal oxygen consumption throughout the study. Because lactic acidosis developed, epinephrine was only given to eight of the 19 patients, and the full stepped epinephrine infusion was given to four patients. Epinephrine infusion was associated, both in absolute terms and when compared with dopamine, with a significant increase in renal vascular resistance (p = .0008 and .0005, respectively), a decrease in RBF/CO (p = .002 and .03), and a compensatory increase in the renal oxygen extraction ratio (p = .005 and .0001). RBFI and renal oxygen consumption remained constant throughout the epinephrine infusion profile. Neither epinephrine nor dopamine significantly affected creatinine clearance or urine output. Twelve patients (63%) were in established renal failure (plasma creatinine, >3 mg/dL) at the time of the study, although the presence or absence of renal failure did not significantly influence the effects of the study drugs. However, overall, the presence of renal failure was associated with a lower mean renal oxygen consumption, a lower mean renal oxygen consumption as a fraction of systemic oxygen consumption, and a higher mean renal vascular resistance. Although dopamine increased and epinephrine decreased fractional renal blood flow, there was no evidence that either drug produced either a beneficial or a deleterious effect on renal oxygen metabolism or function at any of the doses investigated.Keywords
This publication has 32 references indexed in Scilit:
- Renal hemodynamics during norepinephrine and low-dose dopamine infusions in manCritical Care Medicine, 1996
- Renovascular interaction of epinephrine, dopamine, and intraperitoneal sepsisCritical Care Medicine, 1995
- Quantitative effects of low-dose dopamine on urine output in oliguric surgical intensive care unit patientsCritical Care Medicine, 1994
- Validation of bedside measurements of absolute human renal blood flow by a continuous thermodilution techniqueCritical Care Medicine, 1992
- A Comparison of Clearance and Arteriovenous Extraction Techniques for Measurements of Renal Hemodynamic FunctionsInvestigative Radiology, 1986
- Dopamine and Frusemide in Oliguric Acute Renal FailureNephron, 1984
- Comparative study of effects of Adrenaline, Dobutamine and Dopamine on systemic hemodynamics and renal blood flow in patients following open heart surgery.Japanese Circulation Journal, 1982
- Sodium Transport and Oxygen Consumption in the Mammalian KidneyNature, 1961
- Oxygen Consumption and Sodium Reabsorption in the KidneyActa Physiologica Scandinavica, 1961
- THE EFFECT OF EPINEPHRINE (USP), l-EPINEPHRINE, AND l-NOREPINEPHRINE ON GLOMERULAR FILTRATION RATE, RENAL PLASMA FLOW, AND THE URINARY EXCRETION OF SODIUM, POTASSIUM, AND WATER IN NORMAL MAN 12Journal of Clinical Investigation, 1952