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Title: The roles of renal catabolism and uremia in modifying the clearance of fibrinogen and its degradative fragments D and E. Author: Iio A, Rutherford WE, Wochner RD, Spilberg I, Sherman LA. Journal: J Lab Clin Med; 1976 Jun; 87(6):934-46. PubMed ID: 932524. Abstract: Elevated levels of fibrinogen/fibrin degradation products (FDP) occur in uremia, and have been thought to be in part related to intravascular coagulation in the kidney. More recent data indicated that delayed catabolism of fibrinogen fragment D occurred in anephric animals. To further evaluate FDP catabolism in the kidney, turnover studies of purified dog 131I-Fg-D and 125I-Fg-E were performed on dogs before and after acute subtotal nephrectomies, and later during chronic uremia. 131I-fibrinogen clearances were also perfomed. Slowed catabolism of Fg-D and Fg-E was observed in both the acute and chronic uremic stages. Altered urinary excretion was not a factor as only minimal amounts of Fg-D and Fg-E were excreted in the urine of the control animals. In the 131I-fibrinogen studies, there were significant changes in plasma volume, fibrinogen t 1/2, and intravascular/extravascular distribution, but not in fractional catabolic rate. To differentiate fully, the effects of uremia from those of loss of catabolic renal tissue, the Fg-D and Fg-E turnover studies were repeated on other animals with intact kidneys whose ureters were diverted into the peritoneum and compared to subsequent studies after total nephrectomy. The control and ureter-severed studies had the same clearance pattern, whereas decreased catabolism occurred in the nephrectomized dogs. The results demonstrate uremia per se does not have a major effect upon the catabolism of fibrinogen, Fg-D, and Fg-E. Loss of renal tissue does impair the clearance of Fg-D and Fg-E, indicating these proteins are normally catabolized in part by the kidneys. Thus elevated plasma FRA in uremic patients may reflect decreased Fg-D and Fg-E catabolism rather than increased FDP production from primary or secondary fibrinolysis.[Abstract] [Full Text] [Related] [New Search]