Effect of portacaval surgical anastomosis on systemic and splanchnic hemodynamics in portal hypertensive, cirrhotic rats.

The effect of surgical end-to-side portacaval anastomosis (PCSA) on systemic and splanchnic circulation has been studied in cirrhotic rats with portal hypertension (CCl4-phenobarbital method) and in control animals. Hemodynamics have been measured using the microsphere technique, with a reference sample for the systemic hemodynamic measurements, and intrasplenic injection for portal systemic shunting rate measurements. Compared with controls, sham-operated (SO) cirrhotic rats showed a hyperdynamic circulation with increased cardiac output (CO) and decreased mean arterial pressure and peripheral resistances. PCSA in control rats induced only a small change in systemic hemodynamics, with parallel decreases in arterial pressure and peripheral resistances, and a small, nonsignificant increase in CO. In cirrhotic rats, PCSA induced a decrease of CO to values similar to those of control rats, with an increase in total peripheral resistances. PCSA induced an increase in hepatic arterial blood flow in control and in cirrhotic rats, portal pressure becoming in this latter group not different from that of control rats. Blood flow to splanchnic organs was higher in SO cirrhotic than in SO control animals. Thus portal venous inflow was also increased in SO cirrhotic rats. PCSA induced an increase in portal venous inflow in control rats, which was only significant in cirrhotic rats when expressed as a percentage of CO. In SO control animals, a significant correlation was observed between total peripheral resistances and splanchnic arteriolar resistances and between CO and splanchnic blood flow. These correlations were not observed in cirrhotic rats. These results do not support the hypothesis that hyperdynamic circulation shown by cirrhotic rats is based on increases in splanchnic blood flow and (or) massive portal systemic shunting.

[1]  J. López-Novoa,et al.  Vascular reactivity to norepinephrine in rats with cirrhosis of the liver. , 1988, Canadian journal of physiology and pharmacology.

[2]  J. Visa,et al.  Hyperglucagonemia and hyperkinetic circulation after portocaval shunt in the rat. , 1987, The American journal of physiology.

[3]  C. Balabaud,et al.  Splanchnic arterial blood flow in rats with portacaval shunts. , 1984, The American journal of physiology.

[4]  Lautt Ww,et al.  Relationship between hepatic blood flow and overall metabolism: the hepatic arterial buffer response. , 1983 .

[5]  N. Rich,et al.  Hepatic blood flow after canine portasystemic shunting. , 1982, Annals of surgery.

[6]  R. Groszmann,et al.  Splanchnic hemodynamics in portal-hypertensive rats: measurement with gamma-labeled microspheres. , 1982, The American journal of physiology.

[7]  J. López-Novoa,et al.  A micropuncture study of salt and water retention in chronic experimental cirrhosis. , 1977, The American journal of physiology.

[8]  J. Patterson,et al.  GENERAL AND REGIONAL CIRCULATORY ALTERATIONS IN CIRRHOSIS OF THE LIVER. , 1964, The American journal of medicine.

[9]  J. López-Novoa,et al.  Effect of volume expansion on hemodynamics, capillary permeability and renal function in conscious, cirrhotic rats , 1986, Hepatology.

[10]  J. Bruix,et al.  Measurement of azygos venous blood flow in the evaluation of portal hypertension in patients with cirrhosis. Clinical and haemodynamic correlations in 100 patients. , 1985, Journal of hepatology.

[11]  J. López-Novoa,et al.  Effect of chronic and progressive increase of portal venous pressure on renal handling of water and electrolytes in rats. , 1985, Mineral and electrolyte metabolism.

[12]  M. Gerber,et al.  Relation between central canals and portal tracts in alcoholic hepatitis. A contribution to the pathogenesis of cirrhosis in alcoholics. , 1972, Human pathology.