To elucidate potential causes for differing bleeding phenotypes of haemophilic patients of identical degree of coagulation factor deficiency, we investigated 21 male patients with severe haemophilia. Median annual coagulation factor demand and the extent of haemophilic arthropathy were used to discriminate between intensely and less intensely haemorrhagic phenotypes. Haemophiliacs with a median annual coagulation factor demand of 800 IU per kg bodyweight or more and with three or more joints affected by haemophilic arthropathy represented the intensely haemorrhagic phenotype group; all other patients comprised the less intense group. The discriminator values represent the respective medians of the overall group. The results of activated partial thromboplastin time, endogenous thrombin potential, pro- and anticoagulant factor analysis did not differ between the two groups. Median tissue-type plasminogen activator concentration (TPA) was elevated significantly in haemophiliacs with an intensely haemorrhagic phenotype, as was the activity of the thrombin-activatable fibrinolysis inhibitor. Median activity of the plasminogen activator inhibitor 1 (PAI 1) and the concentration of TPA-PAI 1 complexes were increased to approximately double those in nonsevere haemophiliacs. Coexistent congenital thrombophilia was found significantly more often in the less intensely haemorrhagic group. Thus, increased stimulation of the fibrinolytic system was associated with a more intensely haemorrhagic phenotype in our patients. We hypothesize that ineffective haemophilic haemostasis in response to trauma evokes a protracted stimulation of the entire haemostatic system, including costimulation of fibrinolysis. The absence of coexistent congenital thrombophilia predisposes to excess stimulation of fibrinolysis, which cannot be downregulated effectively due to the dysfunctional intrinsic pathway. The association of a more intensely haemorrhagic phenotype with a paradoxical hyperstimulation of the fibrinolytic system resembles a vicious circle, where bleeding seems to cause predisposition to more bleeding.
Paroxysmal nocturnal haemoglobinuria (PNH) is characterized pathophysiologically by intravascular lysis of blood cells and clinically by thromboembolic events, often atypical in localization. In this study, we examined the plasmatic coagulation system of PNH patients to investigate a potential relation between coagulation alterations and disease intensity (PNH clone size). We found evidence for both an increase in procoagulant and in fibrinolytic activity, resulting in increased fibrin generation and turnover. Whereas a positive association of the procoagulant potential with PNH clone size was notable, fibrinolytic activity showed an inverse association with clone size. As a possible cause, a growing impairment of fibrinolytic activation and/or an increasing displacement of fibrinolytic activity is assumed. These mechanisms are most likely caused by the detachment of the glycosyl-phosphatidyl-inositol-anchored urokinase plasminogen activator receptor from cell surfaces, causing a progressive resistance to fibrinolytic stimuli, together with a probable shift of the fibrinolytic potential from cell surfaces to soluble, circulating complexes, resulting in a cellular fibrinolysis-steal phenomenon. Together, these processes are accused of mediating an increased thrombophilic risk in PNH. As hereditary prothrombogenic defects were found more frequently in patients suffering ischaemic complications, genetic thrombophilia seems to confer an additional thromboembolic risk in PNH, and should therefore be screened for.
Severe haemophilia is a serious, haemorrhagic disorder of the plasmatic coagulation system. In this study we investigated, whether 'compensatory' activation of the platelet coagulation system occurs in this situation. Platelet function was investigated with aggregation, adhesion and flow cytometric assays. In addition, we performed clot and platelet plug formation tests and determined endogenous thrombin potentials in patients with severe haemophilia A or B; results were compared to those of healthy controls. Platelet aggregation in response to stimulation with ADP, ristocetin and epinephrine was similar in patients and controls; aggregation in response to collagen was reduced significantly in haemophiliacs. Flow cytometric analysis of P-selectin (CD 62P) and CD 63, of the conformationally changed GP IIb/IIIa with PAC 1 and of thrombospondin bound to CD 36 (GP IV) was performed at baseline and post stimulation. Baseline expression of all markers was similar in haemophiliacs and controls. After stimulation of the platelet thrombin receptors with the thrombin receptor activating peptide (TRAP) 6, the surface expression of all markers increased significantly; again, the expression was similar in haemophiliacs and controls. With thrombelastography and PFA 100 analysis, clot formation under low shear and platelet plug formation under high shear is measured. Both test results revealed a significantly reduced clot and platelet plug formation capacity in severe haemophiliacs. Our results did not reveal signs of enhanced platelet preactivation in haemophiliacs, indicating that baseline platelet reactivity in severe haemophilia remains in a neutral state, despite the severely haemorrhagic condition. As expected, both thrombin and clot formation capacities were impaired significantly in severe haemophilia. The reduced response to collagen-based platelet stimulation tests is indicative of a concomitant platelet function defect. This defect probably contributes to the intensity of bleeding events in patients with severe haemophilia.
Paroxysmal nocturnal haemoglobinuria (PNH) is a rare, acquired stem cell disorder, characterised by an abnormal susceptibility of red blood cells to complement induced lysis, resulting in repeated episodes of intravascular haemolysis and haemoglobinuria, thromboembolic events at atypical locations and, to a much lesser extent, bleeding complications. Platelet function is assumed to be abnormal, however, a defect has not yet been characterised and underlying mechanisms remain elusive. To explore these issues, we investigated platelet function in PNH patients using assays for clot formation under low and high shear force (thrombelastography and PFA100 device), adhesion to glass beads in native whole blood (Hellem method), aggregometry using various agonists (Born method), and flow cytometric assays for baseline and agonist-induced surface expression density of alpha-granule (CD62P) and lysosomal granule proteins (CD63), ligand binding to surface receptors (thrombospondin), and expression density of activation-induced neoepitopes of the fibrinogen receptor complex (PAC-1). Platelet PNH clone size determined by CD55 and CD59 labelling was compared to the clone sizes of granulocytes, monocytes, erythrocytes, and reticulocytes. A profound reduction of platelet reactivity was observed in PNH patients for all "global function" assays (clot formation, adhesion, aggregation). Platelet hyporeactivity was confirmed using flow cytometric assays. Whereas baseline levels of flow cytometrically determined platelet activation markers did not differ significantly between controls and PNH patients, agonist-induced values of all markers were distinctly reduced in the PNH group. Moreover, significantly reduced white blood cell counts (3.1/nl vs. 5.9/nl), haemoglobin values (9.5 vs. 14.3/g per dl), and platelet counts (136 vs. 219/nl) delineate profound tricytopenia in PNH patients. The fraction of particular cell types lacking the surface expression of GPI-anchored glycoproteins is referred to as the respective PNH clone; median PNH clone sizes of cells with short life spans (reticulocytes, platelets, granulocytes) was 50-80% of total cell populations compared to 20% of red blood cells. The results of our laboratory investigations show, that in PNH, reduced platelet counts coincide with reduced platelet reactivity. The foremost clinical complication in PNH, however, is venous thromboembolism, very probably induced by an activated and dysregulated plasmatic coagulation system. From these seemingly contradictory findings we infer, that part of the platelet hyporeactivity is probably due to reactive downregulation of platelet function in response to chronic hyperstimulation. The overall result is thought to be an unsteady balance, associated with thromboembolism in a larger proportion of patients, and with bleeding in a smaller proportion.
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