Two dissimilar hemodynamic hypotheses, the "backward flow" theory and the "forward flow" theory, have been advanced to define splanchnic hemodynamics in portal hypertension. An animal model with portal hypertension and high-grade portal-systemic shunting, the portal vein-stenotic rat, was studied to determine whether a hemodynamic picture compatible with either theory would develop. Splanchnic and systemic hemodynamics and portal-systemic shunting were measured by radioactive microsphere techniques. The portal-hypertensive rats (portal pressure, 12.8 +/- 0.5 vs. 8.3 +/- 0.4 mmHg) with greater than 95% portal-systemic shunting had a 60% increase in portal venous inflow (23.46 +/- 2.54 vs. 14.97 +/- 1.61 ml/min; P less than 0.01) with a concomitant 50% decrease in splanchnic arteriolar resistance (3.86 +/- 0.43 vs. 7.60 +/- 0.80 dyn . s . cm-5 . 10(5); P less than 0.001) compared with control rats. Cardiac index (391 +/- 17 vs. 250 +/- 20 ml . min-1 . kg-1) was elevated 50% (P less than 0.001), and total peripheral resistance (7.1 +/- 0.4 vs. 11.7 +/- 0.8 dyn . s . cm-5 . 10(4)) was decreased 60% (P less than 0.001). The resistance to portal blood flow in portal vein-stenotic rats (4.77 +/- 0.57 dyn . s . cm-5 . 10(4)) was similar to the resistance to portal blood flow in control rats (4.82 +/- 0.43 dyn . s . cm-5 . 10(4)), indicating that the hyperdynamic portal venous inflow, not resistance, provided the main impetus for maintaining the elevated portal venous pressure. The splanchnic hemodynamic observations directly support the forward flow theory of portal hypertension. The relation between splanchnic arteriolar resistance and total peripheral resistance (r = 0.67; P less than 0.01) indicated that the systemic hemodynamic parameters were secondarily altered by the splanchnic hemodynamic changes. This animal model of chronic portal hypertension gave evidence for a generalized splanchnic arteriolar vasodilation occurring in the presence of high-grade portal-systemic shunting.
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