Evaluation of acquired platelet dysfunctions in uremic and cirrhotic patients using the platelet function analyzer (PFA-100 ): influence of hematocrit elevation.
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BACKGROUND AND OBJECTIVE: Patients with end-stage renal disease or advanced cirrhosis develop bleeding disorders characterized by defective interaction of platelets with damaged subendothelium. The anemia associated with both clinical entities has a negative influence on hemostasis. We evaluated alterations of platelet function in patients suffering from end-stage renal disease (n=21) or hepatic cirrhosis (n=20) using standard aggregometric techniques and the recently developed platelet function analyzer (PFA-100 ). The impact of low hematocrit was also analyzed. DESIGN AND METHODS: The hemostatic capacity of platelets was tested in the PFA-100 using citrated blood and standard cartridges containing collagen-ADP (COL-ADP) or collagen-epinephrine (COL-Epi). The hemodynamic influence of hematocrit was also evaluated in blood aliquots in which hematocrit was experimentally increased by adding red blood cells from the same patient. RESULTS: Aggregation studies demonstrated abnormal responses to several agonists in both group of patients. Closure times obtained by the PFA-100 for control blood samples were 87+/-3 sec for COL-ADP and 113+/-5 sec with COL-EPi cartridges. Closure times in uremic and cirrhotic patients with average hematocrits of 0.26 and 0.27 respectively were significantly prolonged (139+/-12 and 125+/-14 sec, respectively with COL-ADP and 194+/-29 and 151+/-15 sec with COL-Epi cartridges). A 5% increase in the hematocrit caused a reduction in the closure time to 111+/-7 sec (COL-ADP) and 143+/-14 sec (COL-Epi) in the uremic group and to 86+/-4 sec (COL-ADP) and 115+/-16 sec (COL-Epi) in the cirrhotic group. Our studies confirm the platelet dysfunction in uremic and cirrhotic patients. INTERPRETATION AND CONCLUSIONS: The PFA-100 device proved to be useful for testing alterations of primary hemostasis in these acquired disorders and was sensitive enough to detect modifications in hemostasis caused by elevations in hematocrit. Conventional aggregometric tests were able to identify the intrinsic platelet abnormality in uremic and cirrhotic conditions, while the PFA-100 seemed more sensitive in detecting the negative influence of the hematocrit reduction. (+info)
Interaction between the LMWH reviparin and aspirin in healthy volunteers.
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AIMS: To investigate potential interactions between reviparin and acetylsalicylic acid (ASA 300 mg o.d. from day 1-5). METHODS: In an open, randomized, three-way-cross over study nine healthy volunteers received reviparin (s.c. injection of 6300 anti-Xa units) or placebo from days 3 to 5 and acetylsalicylic acid (ASA 300 mg) or placebo from days 1 to 5. Assessments included bleeding time (BT), collagen (1 microg ml-1) induced platelet aggregation (CAG), heptest, plasma antifactor Xa-activity and activated partial thromboplastin time (aPTT). RESULTS: Median bleeding time at day 5 was 5.5 min after reverparin alone and after ASA alone and was 9.6 min after the combination of reviparin and ASA. ASA treatment reduced CAG from 84% to 40 to 50% of Amax; values after combined treatment of reviparin with ASA were not different from those after ASA alone. aPTT was prolonged to 32 s after reviparin; this effect was not modified if subjects received ASA. Combined treatment with ASA and reviparin had no effect on plasma anti-Xa-activity and heptest compared with reviparin alone. CONCLUSIONS: We could not entirely exclude a small interaction between reviparin and ASA on bleeding time, but the effect is probably without clinical significance. (+info)
Coagulation and bleeding disorders: review and update.
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Hemostasis is initiated by injury to the vascular wall, leading to the deposition of platelets adhering to components of the subendothelium. Platelet adhesion requires the presence of von Willebrand factor and platelet receptors (IIb/IIIa and Ib/IX). Additional platelets are recruited to the site of injury by release of platelet granular contents, including ADP. The "platelet plug" is stabilized by interaction with fibrinogen. In this review, I consider laboratory tests used to evaluate coagulation, including prothrombin time, activated partial thromboplastin time, thrombin time, and platelet count. I discuss hereditary disorders of platelets and/or coagulation proteins that lead to clinical bleeding as well as acquired disorders, including disseminated intravascular coagulation and acquired circulating anticoagulants. (+info)
Increased rate of formation of small-sized platelet aggregates in patients with acute coronary syndromes.
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Coronary thrombosis has been implicated in the pathogenesis of acute coronary syndromes, and platelet activation plays a pivotal role in the pathogenesis of coronary thrombus. A new platelet aggregometer using a laserlight scattering beam was trialled for assessment of platelet aggregation. Platelet aggregability, especially small-sized platelet aggregates, was investigated on admission using the laser-light scattering method and again after treatment in 23 patients with acute coronary syndromes. The platelet aggregability in 14 patients with stable exertional angina and in 14 control subjects was also examined. On admission, the number of small- and medium-sized platelet aggregates in the acute coronary syndromes group was significantly greater than in the stable exertional angina group or control group. However, the number of large-sized platelet aggregates on admission was not increased in the acute coronary syndromes group. Furthermore, the number of small- and medium-sized platelet aggregates decreased significantly after treatment in the acute coronary syndromes group. The increased number of small-sized platelet aggregates may sensitively reflect attacks of thrombosis in patients suffering acute coronary syndromes. (+info)
Disaggregation of in vitro preformed platelet-rich clots by abciximab increases fibrin exposure and promotes fibrinolysis.
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The glycoprotein IIb/IIIa receptor inhibitor abciximab has been shown to facilitate the rate and the extent of pharmacological thrombolysis with recombinant tissue plasminogen activator (rtPA) in patients with acute myocardial infarction. However, the underlying mechanisms remain not fully determined. We sought to demonstrate that this facilitating effect of abciximab could be related to its potential to modify the clot architecture and the clot physical properties. Compared with fibrin-rich clots, platelets dramatically modified the in vitro properties of the fibrin network, leading to a significant increase of the permeability (K(s)) and the viscoelasticity (G') indexes but also leading to the appearance of platelet aggregates (surface area [S.ag]). These modifications resulted in a 2.6-fold decrease of the fibrinolysis rate when rtPA (1 nmol/L) was added before the initiation of clotting. Adding aspirin (100 microgram/mL) or abciximab (0.068 micromol/L) before the clotting of platelet-rich clots (PRCs) lowered K(s) by 50% and 70%, respectively (P<0.01), G' by 41% and 66%, respectively (P<0.01), and S.ag by 32% and 61%, respectively (P<0.01). As a consequence, the lysis speed was increased by 21% with aspirin (P<0.01) and 45% with abciximab (P<0.01). However, unlike aspirin, permeation of preformed PRCs with abciximab (0.068 micromol/L) decreased G' (37%, P<0.01), K(s) (35%, P<0.001) and S.ag (25%, P=NS) and resulted in a 27% (P<0.01) increase of the lysis speed when abciximab and rtPA (0.2 micromol/L) were simultaneously permeated. This effect was found to be time dependent and was observed only with early permeation, starting within the first 10 minutes of clotting. These changes in the physical properties of the PRC architecture suggest that fibrin is removed from the platelet-fibrin aggregates and reexposed into the surrounding fibrin network, increasing rtPA access to fibrin and therefore the fibrinolysis rate. The superiority of abciximab over aspirin in accelerating fibrinolysis of forming and preformed PRCs is related to its ability to modulate the interactions of fibrinogen and fibrin with platelets. These findings provide new mechanistic information on reperfusion therapy. (+info)
Testing platelet activation with a shear-dependent platelet function test versus aggregation-based tests: relevance for monitoring long-term glycoprotein IIb/IIIa inhibition.
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BACKGROUND: Tests developed to monitor glycoprotein (GP) IIb/IIIa blockade do not properly reflect platelet function in vivo and need a baseline (pretreatment) value. Because GP IIb/IIIa is essential in platelet aggregation and thrombosis under shear conditions, a flow-dependent approach to monitor its inhibition can be used. METHODS AND RESULTS: We compared a test based on flow-dependent platelet deposition, the Cone and Platelet Analyzer (CPA), with in vitro platelet aggregometry and the Rapid Platelet Function Assay (RPFA) on platelet function after GP IIb/IIIa inhibition. In vitro, increasing concentrations of abciximab (0% to 100% receptor occupancy) were tested. Ex vivo, platelet function was monitored with the CPA and with aggregometry for up to 1 week after abciximab administration. The CPA was better correlated with the percentage of free GP IIb/IIIa receptors than was aggregometry or the RPFA. Only the RPFA, when expressed as a ratio over baseline (pretreatment), was comparable to the CPA. Ex vivo, the CPA, but not aggregometry, showed prolonged platelet inhibition with gradual recovery from GP IIb/IIIa receptor blockade in the first week after abciximab administration. CONCLUSIONS: Platelet function assessment by shear-induced deposition is a reliable test to monitor a wide range of GP IIb/IIIa inhibition. Its accuracy does not require a baseline reference. The effects of GP IIb/IIIa blockade on platelet function should be examined under high shear conditions. (+info)
Occupancy of the internal and external pools of glycoprotein IIb/IIIa following abciximab bolus and infusion.
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The internal pool of GPIIb/IIIa, which is expressed upon platelet activation, may be inaccessible to inhibition by GPIIb/IIIa antagonists. To determine the occupancy of the internal and external pools of GPIIb/IIIa and platelet function following an abciximab bolus and infusion, 15 patients undergoing elective percutaneous transluminal coronary angioplasty were administered abciximab as a bolus and 36-h infusion. GPIIb/IIIa receptor number and occupancy in resting and TRAP-6 (20 microM)-activated samples (to expose the internal pool of GPIIb/IIIa) was quantified using a monoclonal antibody-based assay. Antibody binding was quantified by flow cytometry and platelet inhibition by light transmittance aggregation and by the rapid platelet function analyser (Accumetrics, San Diego, CA). The target of >80% receptor occupancy (range 82--99% occupancy) of the external pool of GPIIb/IIIa was achieved in all patients at 3 min. Receptor occupancy of the combined internal and external pools of GPIIb/IIIa was less, ranging from 75 to 93% and again was maximal at 3 min. Platelet aggregation was markedly inhibited to 20 microM ADP (maximal, 11 +/- 2% of baseline), but less so to 5 microM TRAP-6 (maximal, 36 +/- 25% of baseline). Following discontinuation of the drug, there was a gradual fall in receptor occupancy over 15 days coinciding with the disappearance of abciximab from the platelet surface. Maximum inhibition of platelet function and receptor occupancy of the external pool of GPIIb/IIIa occurs within 3 min of an abciximab bolus and infusion. However, some internal receptors that are expressed by potent agonists are not occupied, which may explain the incomplete inhibition of platelet aggregation. (+info)
Platelet aggregability under shear is enhanced in patients with unstable angina pectoris who developed acute myocardial infarction.
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The study investigated whether patients hospitalized for unstable angina pectoris (UAP), who subsequently develop complete coronary thrombosis (acute transmural myocardial infarction (AMI)) despite medical treatment, exhibit platelet hyperaggregability in an assay system that does not employ agonist stimulation. The study comprised 89 patients with UAP (Braunwald type B). Unfractionated heparin and nitrate were administered to all patients via continuous intravenous drip together with aspirin taken orally. Citrated platelet-rich plasma (230-250x 10(3)/microl) was obtained on admission and again, in some patients, following the AMI. Platelet aggregability was measured in an optically modified cone-plate viscometer that enables the detection of platelet aggregation without agonist stimulation. A continuous shear rate of 1,200/s was employed. Of the 89 patients, 85 were finally stabilized, while 4 developed an AMI accompanied by persistent ST-segment elevation with increased levels of plasma creatine kinase within 3 h after starting the treatment. The extent of platelet aggregation on admission was significantly greater in these 4 patients compared with the 85 who were stabilized (87.8+/-6.8%, n=4 vs 26.8+/-9.1%, n=85; mean+/-SD). These data suggest that platelet hyperaggregability mediated mainly by fibrinogen binding to the activated glycoprotein IIb/IIIa complex occurs before a complete thrombotic occlusion and this evaluation may provide important information before the onset of myocardial infarction. (+info)