When does the "third fluid space" open?
Robert G Hahn
Abstract
Open AccessRecent kinetic studies show that the interstitial space contains two functional fluid compartments. This study explores the prerequisites for accumulation of infused crystalloid fluid in the remote slow-exchange space ("third fluid space¨, Vt2). Volume kinetic analysis based on log likelihood mathematics was applied to retrospective data from 132 intravenous infusions in 85 healthy volunteers who received 0.6-2.5 L of crystalloid fluid over 30 min. Frequent measurements of the blood hemoglobin concentration during and after these infusions, together with the measured urine output, served as calculation inputs. Three substudies were set up to illustrate key issues regarding Vt2 filling. In the first of them, infusions were preceded by blood withdrawal, which is known to decrease the interstitial pressure (Pif). Blood withdrawal resulted in smaller volumes entering Vt2, confirming that Vt2 filling is dependent on Pif. In the second substudy, modeled and measured urine outputs were compared after varying the inclusion of Vt2 in kinetic analyses in which the infused volume was gradually increased. Consideration of Vt2 was deemed appropriate when > 1.2 L of fluid was administered. In the third substudy, assessment of Vt2 filling during 7 time periods just before and after the 30 min infusions confirmed that uptake of fluid to Vt2 was initiated between 30 and 35 min. In conclusion, accumulation of fluid in Vt2 is dependent on Pif and occurs following infusion of > 1.2 L of crystalloid fluid. Uptake is not gradual but is initiated at a specific point in time.