Systemic and renal hemodynamics in oliguric hepatic failure: effect of volume expansion.

Systemic and renal hemodynamics were studied by indicator dilution techniques before and after infusion of 500 ml of dextran 40 in 21 patients with renal failure developing in the course of decompensated cirrhosis. Cardiac index was directly correlated with total blood volumes. Renal blood flow was low and renal vascular resistance elevated in 13 of 15 patients. Renal vascular resistance was directly related to total systemic nonrenal vascular resistance. Two patients with the highest cardiac outputs in the group were oliguric with high renal blood flow. Plasma volume expansion increased cardiac output in 19 of 21 patients and increased renal blood flow in 12 of 14. The patients were divided into two groups on the basis of control cardiac index. Those with lower cardiac index had lower blood volumes and responded to dextran with a 73% increase in cardiac output, a 148% increase in renal blood flow, and a rise in renal fraction. Those with high control cardiac index had significantly higher blood volumes and responded to dextran with only a small average rise in cardiac output and renal blood flow. Systolic arterial pressure was less than 100 mm Hg in 12 patients. When compared to the normotensive subjects, this hypotension was characterized by a lower vascular resistance, a tendency for a lesser rise in renal blood flow after volume expansion, and a more rapid demise. The prompt circulatory improvement after volume expansion in many of these patients indicates that functional plasma volume depletion may be an important factor in the renal vasoconstriction of oliguric hepatic failure. In an attempt to sustain volume expansion, reinfusion of ascitic fluid was accomplished in four patients. Normal renal blood flow was maintained during reinfusion and a diuresis always occurred, but the response usually was not maintained after the infusion was terminated.

[1]  P. Hall,et al.  RENAL FAILURE IN PATIENTS WITH CIRRHOSIS OF THE LIVER. II. FACTORS INFLUENCING MAXIMAL URINARY FLOW RATE. , 1965, The American journal of medicine.

[2]  W. Abelmann,et al.  The cardiac output at rest in Laennec's cirrhosis. , 1953, The Journal of clinical investigation.

[3]  Trefor Owen Morgan,et al.  Renal failure associated with low-molecular-weight dextran infusion. , 1966, British medical journal.

[4]  U. Euler Shock Pathogenesis and Therapy , 1962, Springer Berlin Heidelberg.

[5]  B. Ingelman,et al.  Rheomacrodex--a new dextran solution for rheological treatment of impaired capillary flow. , 1961, Acta chirurgica Scandinavica.

[6]  W. F. Hamilton,et al.  STUDIES ON THE CIRCULATION , 1932 .

[7]  S. Papper,et al.  Renal failure in Laennec's cirrhosis. II. Simultaneous determination of cardiac output and renal hemodynamics. , 1962, The Journal of clinical investigation.

[8]  K. Thurau RENAL HEMODYNAMICS. , 1964, The American journal of medicine.

[9]  RENAL CIRCULATION IN CIRRHOSIS: OBSERVATIONS BASED ON CATHETERIZATION OF THE RENAL VEIN. , 1964, The Journal of clinical investigation.

[10]  L. Shear,et al.  Renal failure in patients with cirrhosis of the liver. 3. Evaluation of intrarenal blood flow by para-aminohippurate extraction and response to angiotensin. , 1965, The American journal of medicine.

[11]  J. Cohn,et al.  Studies in Clinical Shock and Hypotension IV. Variations in Reflex Vasoconstriction and Cardiac Stimulation , 1966 .

[12]  J. Kleinerman,et al.  RENAL FAILURE IN PATIENTS WITH CIRRHOSIS OF THE LIVER. I. CLINICAL AND PATHOLOGIC CHARACTERISTICS. , 1965, The American journal of medicine.

[13]  P. Teschan,et al.  Studies in Acute Renal Failure , 1966 .

[14]  W. Summerskill,et al.  Hepatic failure and the kidney. , 1966, Gastroenterology.

[15]  G. Bounous,et al.  Blood pressure and renal blood flow response to occlusion of visceral arteries. , 1963, Annals of surgery.

[16]  J. Cohn,et al.  Unilateral renal hemodynamics studied by an indicator-dilution technic in man. , 1965, The American journal of cardiology.

[17]  R. Swank,et al.  Physico-chemical changes in blood arising from dextran infusions. , 1965, Clinical science.

[18]  E. Selkurt Renal blood flow and renal clearances during hemorrhage and hemorrhagic shock , 1962 .

[19]  S. Papper THE ROLE OF THE KIDNEY IN LAENNEC'S CIRRHOSIS OF THE LIVER , 1958, Medicine.

[20]  B. Zweifach,et al.  HEPATO‐RENAL FACTORS IN CIRCULATORY HOMEOSTASIS: III. THE INFLUENCE OF HUMORAL FACTORS OF HEPATO‐RENAL ORIGIN ON THE VASCULAR REACTIONS TO HEMORRHAGE , 1948, Annals of the New York Academy of Sciences.

[21]  R. Varco,et al.  Effect of Low Molecular Weight Dextran on Red Blood Cell Charge During Clinical Extracorporeal Circulation , 1963 .

[22]  N. Lassen,et al.  Diverse Distribution of Red Cells and Albumin in the Dog Kidney , 1958, Circulation research.

[23]  S. Papper,et al.  Renal failure in Laennec's cirrhosis of the liver. I. Description of clinical and laboratory features. , 1959, Annals of internal medicine.

[24]  M. Power,et al.  Intercellular plasma of centrifuged human erythrocytes as measured by means of iodo 131 albumin. , 1953, Journal of applied physiology.

[25]  P. Bálint,et al.  QUANTITATIVE CONSIDERATIONS ON THE STORAGE OF CLEARANCE SUBSTANCES IN THE KIDNEY. , 1964, Clinical science.

[26]  S. Papper,et al.  Simultaneous determination of cardiac output and renal function in patients with Laennec's cirrhosis during the administration of the pressor amine, metaraminol. , 1963, The Journal of laboratory and clinical medicine.