Early effects of 7.5% hypertonic saline solution on splanchnic perfusion after hemorrhagic shock

To evaluate the effects of SSH resuscitation on systemic and splanchnic hemodynamic variables in an experimental model of controlled hemorrhagic shock. Ten mongrel dogs were bled (20 ml/min) to a target mean arterial pressure (MAP) of 40+/-5 mmHg. After 30 minutes of shock, animals received SSH infused in 5-minute and they were observed for 60 minutes thereafter. Systemic hemodynamics were evaluated through a Swan-Ganz and arterial catheters while gastrointestinal tract perfusion by a catheter inside the portal vein, an ultrasonic flowprobe around portal vein blood flow (PVBF) and a gastric tonometer. Splanchnic oxygen delivery and consumption, intramucosal pH and veno-arterial, portal-arterial and mucosal-arterial pCO2-gradients (D(ap-a)pCO2, D(vp-a)pCO2 e D(t-a)pCO2, respectively) were assessed. Hemorrhage (29.8+/-2.4 ml/Kg) induced significant decreases in MAP (125+/-6 to 42+/-1 mmHg), in CO (1.9+/-0.2 to 0.6+/-0.1 L/min), and PVBF (504+/-73 to 126+/-12 ml/min) while significant increases were detected in D(ap-a)pCO2 (5.3+/-0.8 to 19.9+/-1.6 mmHg) D(vp-a)pCO2 (5.4+/-1.4 to 22.6+/-2.1 mmHg) and D(t-a)pCO2 (6.1+/-1.1 to 43.8+/-7.5 mmHg). SSH infusion promoted only partial benefits in systemic and splanchnic blood flows. Reduced pCO2 gradients but fewer effects in D(t-a)pCO2 were observed. The SSH infusion promoted partial systemic and splanchnic hemodynamic benefits. Those benefits were especially poor at the splanchnic microcirculation, as evaluated by D(t-a)pCO2. In addition, systemic and regional oxygen-derived variables do not reflect the regional microcirculation disturbances. Gastrointestinal tonometry clearly represents a useful tool for monitoring splanchnic perfusion in patients in hemodynamic shock.