Recent advances in surgery and its perioperative treatment in people with hemophilia

Sequential combined bypassing therapy in haemophilia patients with high titer inhibitors: surgical experience

Sequential combination bypass therapy (SCBT) is an effective treatment option for haemophilia patients with inhibitors; however, its safety, efficacy, and cost have largely have yet to be systematically evaluated. To address this question, we retrospectively analyzed the medical records of 14 haemophilia patients with high titer inhibitors who underwent surgery. The patients with high inhibitors were treated with two SCBT regimens by optimizing doses of the recombinant activated factor VII (rFVIIa) and prothrombin complex concentrate (PCC). The effectiveness and safety of the two SCBT regimens were evaluated. In addition, rFVIIa and PCC factor consumption and costs were also compared. The median age of the 14 patients was 30.00 (27.25-42.75) years. They all underwent major surgeries, with 85.71% (12/14) was orthopedic surgeries related to hemophilic arthropathy. Four patients were treated using regimen 1 and ten with regimen 2. Results showed that regimen 2 exhibited a higher haemostatic efficiency (90% vs. 75% intraoperative and 90% vs. 50% postoperative) and a 28.0% reduction in economic costs (863,604.68 RMB vs. 621,756.62 RMB). All patients after surgery had no prothrombin time extension, 7.14% had fibrinogen and platelet count decreases, and 57.14% had D-dimer increases that returned to baseline within 5-7 days after SCBT. The study shows that regimen 2 as an optimized SCBT regimen is an efficient approach to secure haemostasis for haemophilia patients with high titer inhibitors in the perioperative period, rather than regimen 1. The findings can help design future clinical studies and provide more reliable data and implementation advice.

A review of existing strategies for designing long-acting parenteral formulations: Focus on underlying mechanisms, and future perspectives

The need for long-term treatments of chronic diseases has motivated the widespread development of long-acting parenteral formulations (LAPFs) with the aim of improving drug pharmacokinetics and therapeutic efficacy. LAPFs have been proven to extend the half-life of therapeutics, as well as to improve patient adherence; consequently, this enhances the outcome of therapy positively. Over past decades, considerable progress has been made in designing effective LAPFs in both preclinical and clinical settings. Here we review the latest advances of LAPFs in preclinical and clinical stages, focusing on the strategies and underlying mechanisms for achieving long acting. Existing strategies are classified into manipulation of in vivo clearance and manipulation of drug release from delivery systems, respectively. And the current challenges and prospects of each strategy are discussed. In addition, we also briefly discuss the design principles of LAPFs and provide future perspectives of the rational design of more effective LAPFs for their further clinical translation.