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CARDIOVASCULAR ANESTHESIA

Rapid Water and Slow Sodium Excretion of Acetated Ringer’s Solution Dehydrates Cells

From the Department of Anesthesiology, Söder Hospital, S-118 83 Stockholm, Sweden

Address correspondence and reprint requests to Robert G. Hahn, MD, PhD, Professor at the Karolinska Institute, Department of Anesthesiology, Söder Hospital, S-118 83 Stockholm, Sweden. Address email to robert.hahn{at}anest.sos.sll.se

Acetated Ringer’s solution is a slightly hypotonic infusion fluid (osmolality 270 mosmol/kg) that has inspired the belief that the fluid causes a shift of water volume to the intracellular space. We assessed the role of the kidney in modifying this volume shift by infusing 25 mL/kg of Ringer’s acetate solution (mean, 1565 mL) over a time period of 15, 30, 45, and 80 min on different occasions in 5 healthy female volunteers. Regardless of the rate of administration, the excreted urine contained only half as much sodium (mean, 67 mmol/L) as the infused fluid. As there was only a slight increase of 0.9 mmol/L in the serum sodium level, mass balance calculations indicated that 274 mL of water had shifted from the intracellular to the extracellular space 30 min after the infusions ended (P < 0.001). This fluid shift was also maintained over the subsequent 90 min. In conclusion, infusion of Ringer’s acetate solution does not promote cellular swelling as a result of the excretion of urine that is low in sodium. A slight dehydration of fluid from the intracellular space still persisted when our measurements ended 2 h after completing the infusion.

IMPLICATIONS: The kidney promotes slight cellular dehydration after infusion of Ringer’s acetate solution by rapid excretion of water, whereas natriuresis occurs more slowly. In volunteers, this translocation amounted to 18% of the infused fluid volume and persisted for at least 2 h.

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