AI Article Synopsis
- - Factor XI (FXI) deficiency is a genetic bleeding disorder that causes excessive bleeding, particularly during surgeries, and is categorized as severe when FXI levels drop below 15-20 IU/dL.
- - Patients with very severe FXI deficiency (FXI < 1 IU/dL) may develop inhibitory antibodies following treatments like fresh frozen plasma (FFP), leading to high risks of bleeding that are difficult to control.
- - A case study of a 17-year-old with very severe FXI deficiency who developed an inhibitor after FFP exposure illustrates the need for careful management and recommends using alternative treatments like recombinant activated factor VII and tranexamic acid for safe surgery outcomes.
Article Abstract
Factor XI (FXI) deficiency is an autosomal bleeding disorder characterized by injury-related hemorrhage, mostly associated with surgical procedures at sites noted for high fibrinolytic activity. Severe FXI deficiency is defined when the FXI level is lower than 15-20 IU/dL. Perioperative prophylactic treatment for high-bleeding-risk surgery in patients with severe FXI deficiency is based on fresh frozen plasma (FFP) transfusions or FXI concentrate (where available). Exposure to FFP and to FXI concentrate may lead to the development of inhibitory antibodies against FXI. This phenomenon occurs mostly in patients with very severe FXI deficiency (baseline FXI <1IU/dL) and is associated with an increased risk of substantial perioperative bleeding, unresponsive to FXI replacement. Thus, in individuals with severe FXI deficiency, routine testing for the presence of inhibitory antibodies against FXI is recommended. We present a 17-year-old adolescent patient with very severe FXI deficiency, who developed an inhibitor to FXI following FFP exposure associated with neurosurgery for medulloblastoma. Prophylactic treatment for subsequent invasive procedures consisted of single low dose (10 mcg/kg) recombinant activated factor VII (rFVIIa) and tranexamic acid (Hexakapron). The procedures were performed uneventfully, with no hemorrhagic or thrombotic complications. In patients with very severe FXI deficiency, the development of inhibitory antibodies following plasma replacement therapy comprises a rare and challenging occurrence. The formulation of a safe and effective evidence-based protocol for hemostatic support in these patients requires multi-center collaboration.
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