Thrombocytopenia is a common condition in distressed newborns, but little is known about thrombocytopenia in an unselected cohort of neonates. In an attempt to address this issue, a multicenter prospective study was conducted in three obstetrical wards of AP-HP in Paris. We found the frequency of neonatal thrombocytopenia (<150 × 109/L) to approximate 0.9% (48 of 5,632 appropriate samples). An immune mechanism was likely to be the cause of thrombocytopenia in 10 of the 33 cases studied, implying an incidence of 0.3% of immune neonatal thrombocytopenia in the general population. The frequency of alloimmune thrombocytopenia was 1.5/1,000 liveborn neonates, and 1/1,000 when considering anti–HPA-1a allo-immunization. Because thrombocytopenia, whatever its cause, was often silent and delayed, it appears that the only way to detect neonatal thrombocytopenia in time to prevent its potential disastrous complications would be to perform a systematic neonatal blood sampling for platelet count. All cases of ascertained thrombocytopenia should then be screened for an immune mechanism to enable early detection of autoimmune diseases in mothers and careful monitoring of subsequent pregnancies and deliveries, leading to appropriate prevention of potential severe deleterious effects in the offspring.
Excessive bleeding at surgery is a feared complication in patients with inherited platelet disorders. However, very few studies have evaluated the frequency of surgical bleeding in these hemorrhagic disorders. We performed a worldwide, multicentric, retrospective study to assess the bleeding complications of surgery, the preventive and therapeutic approaches adopted, and their efficacy in patients with inherited platelet disorders: the Surgery in Platelet disorders And Therapeutic Approach (SPATA) study. We rated the outcome of 829 surgical procedures carried out in 423 patients with well-defined forms of inherited platelet disorders: 238 inherited platelet function disorders and 185 inherited platelet number disorders. Frequency of surgical bleeding was high in patients with inherited platelet disorders (19.7%), with a significantly higher bleeding incidence in inherited platelet function disorders (24.8%) than in inherited platelet number disorders (13.4%). The frequency of bleeding varied according to the type of inherited platelet disorder, with biallelic Bernard Soulier syndrome having the highest occurrence (44.4%). Frequency of bleeding was predicted by a pre-operative World Health Organization bleeding score of 2 or higher. Some types of surgery were associated with a higher bleeding incidence, like cardiovascular and urological surgery. The use of pre-operative pro-hemostatic treatments was associated with a lower bleeding frequency in patients with inherited platelet function disorders but not in inherited platelet number disorders. Desmopressin, alone or with antifibrinolytic agents, was the preventive treatment associated with the lowest bleedings. Platelet transfusions were used more frequently in patients at higher bleeding risk. Surgical bleeding risk in inherited platelet disorders is substantial, especially in inherited platelet function disorders, and bleeding history, type of disorder, type of surgery and female sex are associated with higher bleeding frequency. Prophylactic pre-operative pro-hemostatic treatments appear to be required and are associated with a lower bleeding incidence.
The identification of many biologic anomalies is progressively realized in nephrotic children, thanks to adult studies and to scientific advances. The number of anomalies and the intensity of alterations vary from one patient to another and during flare-ups in the same patient. Their severity is usually a function of the severity of the nephrotic syndrome (NS). The responsibility of each anomaly per se in triggering thrombotic complications is not yet known and today it is understood that the coexistence of several factors is necessary to induce these complications. Thus, the NS presents a true model because it can gather multiple thrombogenic anomalies. It might be more satisfying to characterize all of the mechanisms that could be responsible for a thrombosis rather than to assay all of the biologic components in one patient. When the main balances during the childhood NS are broken-pro- versus anticoagulant forces, pro- versus antifibrinolytic forces, platelet/vessel wall interactions-one cannot evaluate with accuracy the possible impact of acquired interrelations such as a decrease of antithrombin versus an increase of protein C. Among the present unknown factors, a major one is related to the effects, if any, of the proteinuric factor (recently discovered) on the vascular endothelium and the central question is: would it be capable of changing the thromboresistant phenotype to a thrombogenic one? No absolute correlation has been found between the many biologic abnormalities and the occurrence of thromboembolic (TE) complications. However, it is of great interest to have the best evaluation of the TE risks in nephrotic children. The criteria that are commonly used are: albuminuria, and plasma levels of fibrinogen and antithrombin. One can suggest adding to these criteria the D-dimer assay, a molecular marker of coagulation activation, and the factor V Leiden workup because it represents a genetic predisposition for TE complications. As far as prevention of TE complications is concerned, the standard but basic guidelines of nephrotic patients must be followed. Furthermore, vitamin K antagonists should be administered as soon as the risk criteria are gathered, but only after a careful evaluation of the benefits/risks ratio. As to the treatment of TE events, one should follow the present recommendations for children. A better future regarding prevention of TE accidents is based not only on the necessity of multicentric prospective studies but also on basic research that will allow discovery of the "primum movens" of childhood NS.
HPA‐5b (Bra) neonatal alloimmune thrombocytopenia: clinical and immunological analysis of 39 cases
Maternal alloimmunization against fetal platelets can cause fetal and neonatal thrombocytopenia (NAIT). The HPA-1a (PIA1, Zwa) antigen is by far the most common antigen implicated in NAIT. However, today another antigen often linked with that affection is HPA-5b (Br(a)). This is a report of 39 cases of NAIT involving the HPA-5b antigen. Thrombocytopenia may be of grave consequence. Three infants developed intracerebral haemorrhages (ICH). Of these, one died presumably as a consequence of ICH. Central nervous system (CNS) sequelae in the neonatal period was observed in two children. The potential hazards of death or disabling neurologic sequelae following intracerebral haemorrhage call for rapid and reliable diagnosis and effective therapy. Because there is high risk that subsequent pregnancies might be also affected by NAIT, the mothers of a previously affected child should be managed similarly to the HPA-1b mothers (PIA2, Zwb). The antenatal diagnosis of thrombocytopenia should be made and if necessary the in utero therapy instituted.
Screening Primiparous Women and Newborns for Fetal/Neonatal Alloimmune Thrombocytopenia: A Prospective Comparison of Effectiveness and Costs
A prospective study was conducted in three maternity wards to compare the medical outcomes and the costs of two screening strategies for the detection of fetal/neonatal alloimmune thrombocytopenia (FMAIT). A total of 2066 primiparas and 6081 newborns were included. Fifty-two primiparous women with HPA-1b phenotype were found, and 45 were followed during pregnancy. Four women developed antibodies, and two fetuses exhibited FMAIT; therefore, the prevalence of anti-HPA-1a was 2 per 1000, and the prevalence of FMAIT 1 per 1000. Forty-eight thrombocytopenic newborns were found out of a total of 5632 blood samples. Five were HPA-1a children whose mothers were HPA-1b. The cost-effectiveness of screening all primiparous women was $45,000 and of screening all newborns is $18,000-per anti-HPA-1a alloimmunization diagnosed. Costs per fetal death or disability averted were $500,000 for the primiparous strategy and $225,000 for the newborn strategy. In conclusion, screening newborns for neonatal alloimmune thrombocytopenia is more cost-effective than screening primiparous women.
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