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  • Title: Experimental arterial thromboembolism in baboons. Mechanism, quantitation, and pharmacologic prevention.
    Author: Harker LA, Hanson SR.
    Journal: J Clin Invest; 1979 Aug; 64(2):559-60. PubMed ID: 110835.
    Abstract:
    A quantitative primate model of arterial thromboembolism has been characterized with respect to mechanism and usefulness in evaluating modifying variables. The model involved the kinetic measurements of (51)Cr-platelets and (125)I-fibrinogen consumption by femoral arteriovenous cannulae in chaired baboons. Cannula platelet consumption correlated directly with exposed cannular area for irradiated Silastic and polyurethane (correlation coefficients of 0.940 and 0.901, respectively; P < 0.001) and remained steady state for months. Nonirradiated Silastic was only minimally reactive with platelets. Despite increased rates of platelet consumption circulating fibrinogen was not measurably destroyed by any of the cannulae tested. Cannula platelet consumption was independent of cannula flow rate, platelet count, heparin anti-coagulation, and ancrod defibrinogenation.(111)In-platelet imaging of irradiated Silastic cannulae demonstrated luminal accumulation and subsequent embolization of irregular platelet masses. When irradiated Silastic cannulae were inserted as extension segments in the renal arteries of four animals the glomerular vessels became progressively occluded with nonfibrin-containing platelet thromboemboli. Nonirradiated Silastic cannulae in control arteries produced no significant vascular occlusion. Because the survival of platelets from animals with consumptive cannulae was not shortened in normal recipient animals we concluded that platelets were either irreversibly removed through thromboembolic consumption or unaffected in their viability. Oral administration of dipyridamole and sulfinpyrazone decreased cannula platelet consumption in a dose-dependent manner with complete interruption at 20 and 250 mumol/kg body wt per d (in three divided doses), respectively, whereas oral acetylsalicylic acid (10-330 mumol/kg per d) had no measurable effect on cannula platelet consumption. We conclude that this primate model simulates arterial thrombotic processes in man and that this model is suitable for the in vivo evaluation of biomaterials and of drugs that modify platelet behavior.
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