Maternal immunization to Gov system alloantigens on human platelets.

BACKGROUND: Immunization to platelet alloantigens can occur during pregnancy or after the transfusion of blood components. Platelet alloantibodies can cause neonatal alloimmune thrombocytopenia and posttransfusion purpura. Transfusion-induced alloimmunization to a novel platelet alloantigen system, Gov, expressed on the 175-kDa glycosyl phosphatidylinositol-anchored platelet glycoprotein, CD109, was previously described. This report describes three unrelated patients who were alloimmunized to Gov(a) or Gov(b) during pregnancy. STUDY DESIGN AND METHODS: Platelets were typed by using radioimmunoprecipitation for HPA-1a, -3a, -5a, -5b, Gov(a), and Gov(b) and by polymerase chain reaction-restriction fragment length polymorphism for HPA-1a, -1b, -3a, and -3b. Maternal sera were screened for platelet antibodies by using radioimmunoprecipitation and the antigen capture assay. RESULTS: Patients 1 and 2 were investigated after the diagnosis of neonatal alloimmune thrombocytopenia in their children, and alloantibodies specific for Gov(b) and Gov(a), respectively, were detected in maternal serum. Serum from patient 3, who had mild idiopathic thrombocytopenia purpura with no detectable autoantibody, was found to contain alloantibodies to Gov(b) and to HPA-5b, presumably as a result of immunization during pregnancy. Platelet typings confirmed that the patients were at risk for alloimmunization to the respective antigen. CONCLUSION: This report of three cases of maternal alloimmunization to antigens in the Gov system indicates that immunization can occur via placental transfer of antigen and that Gov system alloantibodies may be associated with neonatal alloimmune thrombocytopenia.

Clinical impact of neonatal thrombocytopenia.

In a 1-year prospective study, the outcome in infants with a platelet count less than 100 X 10(9)/L (n = 97) was compared with the outcome in an age-, weight-, and disease-matched nonthrombocytopenic control group (n = 80). The hemostatic impact of the thrombocytopenia was assessed by modified template bleeding time, hemorrhage score, and determination of the presence and extent of intraventricular hemorrhage (IVH) in thrombocytopenic infants weighing less than 1500 at birth (n = 39) compared with all nonthrombocytopenic infants less than 1500 g (n = 122) admitted during the study period. The development outcome in infants less than 1500 g was compared at 12 months after delivery. Neonatal thrombocytopenia had a major impact on hemostatic integrity: bleeding time was inversely related to platelet count (r = -0.56, P less than 0.001) and became prolonged when the platelet count fell to less than 100 X 10(9)/L. In addition, many infants (40%) had evidence of platelet dysfunction with prolonged bleeding times despite only moderately reduced platelet counts (75 to 150 X 10(9)/L). The hemorrhage score was greater in the thrombocytopenic infants compared with the sick control infants, and increased as the platelet count fell (r = -0.58, P less than 0.001). The incidence of IVH in thrombocytopenic infants less than 1500 g was 78%, compared with 48% in the nonthrombocytopenic infants (P less than 0.01). In addition, the more severe grades of IVH were more frequent in the thrombocytopenic infants. The serious neurologic morbidity for the surviving infants less than 1500 g was 41% in the thrombocytopenic infants and 7% in the nonthrombocytopenic infants. Thus, on the basis of three indices of abnormal bleeding, thrombocytopenic infants are at greater risk for bleeding than equally sick nonthrombocytopenic infants. The thrombocytopenia itself may have contributed to the high mortality and neurologic morbidity.

Bleeding time in hemophilia A: potential mechanisms for prolongation.

Prolongation of bleeding time has been previously observed in hemophilia, although no cause has been elucidated. We measured bleeding time, platelet aggregation, nucleotide release, and thromboxane B2 (TXB2), plasma 6-keto-PGF 1 alpha, platelet-associated IgG (PAIgG), and circulating immune complexes in 31 unselected patients with severe hemophilia A and in 17 controls. In 85% of patients with hemophilia A, the bleeding time was greater than 2 SD above the control level (greater than 8 minutes). Sixty-six percent of patients with hemophilia A had circulating immune complexes, and there was a striking relationship between the presence of these complexes and prolonged bleeding time. Plasma 6-keto-PGF 1 alpha levels were significantly elevated in the patient group, and correlated with bleeding time changes. Platelet aggregation and nucleotide release were normal in the patients with hemophilia, although reduced platelet TXB2 biosynthesis was noted in 26%. No correlation was demonstrated between bleeding time and impairment of platelet TXB2 formation. Seventy-two percent of the patients with hemophilia A had elevated levels of PAIgG, and an inverse relationship between PAIgG and platelet count was observed. No relationship was noted between platelet count and bleeding time. This study indicates that the majority of patients with hemophilia A have prolonged bleeding times. The close correlation between bleeding time, plasma 6-keto-PGF 1 alpha levels, and the presence of circulating immune complexes suggests a role for immune complex-mediated defects in vascular function as the basis for bleeding time prolongation.