In neonates, despite poor platelet function in various in vitro tests, closure times (CTs) in PFA‐100 measurements are shorter than in adults. Neonates have a higher polymeric von Willebrand factor (vWF). They also have a higher haematocrit and higher white blood cell count than adults, which may interfere with the evaluation of platelet and vWF function by means of the PFA‐100 in neonates. To assess the role of different blood constituents on neonatal CTs, red blood cell, platelet and white blood cell counts in cord blood were modified. These modifications did not provide any evidence that the difference in number between adult and neonatal blood cells was responsible for shorter neonatal CTs. In further experiments, platelets and/or vWF were inhibited by means of abciximab and anti‐vWF antibody, and mixing experiments with neonatal platelet‐rich and platelet‐poor plasma were performed. The results showed that short cord blood PFA‐100 CTs were caused by a constituent of neonatal platelet‐poor plasma, probably the neonatal high multimeric vWF.
Conclusion: This study demonstrates that CTs in neonates are dependent on the same components, platelets and vWF, as in adults, making it likely that the PFA‐100 can be used in neonates in the same way as in adults to investigate platelet and vWF function.
Our observation provides a biochemical basis for the rare bleeding in hemophilic neonates and shows the important role of the natural inhibitors in the hemostatic system of hemophilic patients.
Three to five percent of patients undergoing surgery have either an acquired or congenital platelet defect or von Willebrand disease (vWD). The predictive value of preoperative coagulation screening is questionable. PFA-100 is now routinely used in preoperative screening in our pediatric outpatient service. We wanted to assess whether the PFA-100 would help to identify patients with primary haemostatic defects or if the additional use of PFA-100 would add to the problem of unnecessary pathologic preoperative laboratory values resulting in delay of surgical procedure. We investigated 500 children consecutively seen in our outpatient service before surgery. Blood cell count, aPTT, PFA-100 closure times (CT) were done in all patients. If abnormalities were found, the patient was presented to a haemostatic expert. vWF:AG, R:Cof and factor VIII were analysed in all patients with prolonged closure times and APTT values. One hundred twenty-six patients (25.2%) showed abnormalities in APTT and/or PFA-100. Further investigations in 89 of these 126 patients did not yield a specific diagnosis; neither diagnostic criteria for impaired haemostasis were found by questionnaire. None of these 89 patients had a bleeding complication during surgery. Forty-eight patients showed prolonged CTs. Twelve patients with low vWF:AG were detected, 10 of these patients were found by PFA-100. Four of these patients did present with normal APTT values. Our study shows that similar to the APTT the PFA-100 is probably only a good screening method when a haemostatic defect in a patient is clinically likely, especially to screen forVWD, and the test should not be used in general unselective screening.
This study demonstrates that CTs in neonates are dependent on the same components, platelets and vWF, as in adults, making it likely that the PFA-100 can be used in neonates in the same way as in adults to investigate platelet and vWF function.
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