Systemic and renal effects of dopamine in the infant pig

Abstract

Dopamine is commonly employed in the management of hypotensive patients. Although this medication increases cardiac index (CI) and renal artery (RA) flow in adults, its effect in infants has not been adequately studied. In 13 infant pigs (mean wt 3.05 ± 0.75 kg; age 3–4 weeks) CI, RA flow and systemic blood pressure (BP) were measured at varying renal artery perfusion pressures before and after the administration of dopamine. Pigs were anesthetized with ketamine, intubated, and maintained on a ventilator with succinylcholine. Jugular vein, pulmonary (Swan-Ganz), carotid, and femoral artery catheters were placed. Laparotomy was performed and RA flow was measured with an electromagnetic flow probe. A Blalock clamp was placed around the suprarenal aorta to obtain graded aortic occlusions to pressures of 80 and 50 mm Hg. Dopamine had no significant effect on the CI vs control at 5, 10, 15, 20, 25, or 50 μg/kg/min. BP increased 25 mm Hg on Dopamine (10 μg/kg/min) P > 0.05). RA flow remained stable (318 ± 74 vs 300 ± 68 ml/min) despite reduction in perfusion pressure to 80 mm Hg, suggesting an autoregulatory flow mechanism. At 50 mm Hg perfusion pressure however, RA flow decreased significantly to 220 ± 54 ml/min ( P < 0.05) indicating a loss of autoregulation at lower perfusion pressures. Dopamine (10 μg/kg/min) did not change RA flow at control BP (335 ± 76 vs 318 ± 74 ml/min). At 80 mm Hg perfusion pressure however, RA flow fell from 335 ± 74 to 175 ± 50 ml/min ( P < 0.001) demonstrating a suppression of renal autoregulation by dopamine. At 50 mm Hg, RA flow was markedly reduced to 22 ± 31 ml/min ( P < 0.001). These data suggest: (1) dopamine has no significant effect on CI in infant pigs, (2) an RA flow mechanism is present in infant pigs which protects the kidney at reduced perfusion pressures, and (3) dopamine interferes with autoregulation and may be harmful to the infant kidney in hypotensive states.