Browsing by Author "Carbonero, Diana"

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    Inhibitor development according to concentrate after 50 exposure days in severe hemophilia: data from the European HAemophilia Safety Surveillance (EUHASS)
    (Elsevier, 2024-05-27) Fischer, Kathelijn; Lassila, Riitta; Peyvandi, Flora; Gatt, Alexander; Gouw, Samantha C.; Hollingsworth, Rob; Lambert, Thierry; Kaczmarek, Radek; Carbonero, Diana; Makris, Mike; European HAemophilia Safety Surveillance (EUHASS) participants; Pediatrics, School of Medicine
    Background: Patients with hemophilia have a life-long risk of developing neutralizing antibodies (inhibitors) against clotting factor concentrates. After the first 50 exposure days (EDs), ie, in previously treated patients (PTPs), data on inhibitor development are limited. Objectives: To report inhibitor development according to factor (F)VIII or FIX concentrate use in PTPs with severe hemophilia A and B. Methods: Inhibitor development in PTPs was collected since 2008 from 97 centers participating in European HAemophilia Safety Surveillance. Per concentrate, inhibitors were reported quarterly and the number of PTPs treated annually. Incidence rates (IRs)/1000 treatment years with 95% CIs were compared between concentrate types (plasma derived FVIII/FIX, standard half-life recombinant FVIII/FIX, and extended half-life recombinant (EHL-rFVIII/IX) concentrates using IR ratios with CI. Medians and IQRs were calculated for inhibitor characteristics. Results: For severe haemophilia A, inhibitor rate was 66/65,200 treatment years, IR 1.00/1000 years (CI 0.80-1.30), occurring at median 13.5 years (2.7-31.5) and 150 EDs (80-773). IR on plasma-derived pdFVIII (IR, 1.13) and standard half-life recombinant FVIII (IR, 1.12) were similar, whereas IR on EHL-rFVIII was lower at 0.13 (incidence rate ratio, 0.12; 95% CI, <0.01-0.70; P < .01).For severe hemophilia B, inhibitor rate was 5/11,160 treatment years and IR was 0.45/1000 years (95% CI, 0.15-1.04), at median 3.7 years (95% CI, 2.1-42.4) and 260 EDs (95% CI, 130 to >1000). Data were insufficient to compare by type of FIX concentrates. Conclusion: Low inhibitor rates were observed for PTPs with severe hemophilia A and B. Data suggested reduced inhibitor development on EHL-rFVIII, but no significant difference between plasma-derived FVIII and standard half-life recombinant FVIII. FIX inhibitor rates were too low for robust statistical analysis.
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    Trends in Treatment of Severe Haemophilia and Impact on Inhibitor Assessment by the EUHASS Registry
    (Wiley, 2025) Fischer, Kathelijn; Lassila, Riitta; Peyvandi, Flora; Gatt, Alex; Gouw, Samantha C.; Hollingsworth, Rob; Lambert, Thierry; Kaczmarek, Radoslaw; Carbonero, Diana; Makris, Michael; EUHASS participants; Pediatrics, School of Medicine
    Background: The last 15 years have seen new extended half-life (EHL) recombinant FVIII/IX concentrates and nonreplacement therapy for haemophilia A (emicizumab) introduced in Europe. These changes affect FVIII/IX exposure in previously untreated patients (PUPs) and previously treated patients (PTPs) with severe haemophilia A and B (SHA and SHB) and may modify inhibitor development and/or detection. Aim: To report trends in treatment for severe haemophilia and concomitant changes in inhibitor incidence. Methods: Between 2008 and 2022, 97 centres reported inhibitor development against FVIII/IX concentrates to the European Haemophilia Safety Surveillance System (EUHASS). Inhibitors were reported quarterly, and PUPs without inhibitor development annually. Cumulative inhibitor incidences (95% confidence intervals [CI]) were calculated for PUPs and incidence rates/1000 years (CI) for PTPs. Results: By 2022, SHA-PUPs (n = 1574) received emicizumab (44%), SHL-rFVIII (21.5%), pdFVIII (17.5%) and EHL-rFVIII (17%). SHB-PUPs (n = 236) received EHL-rFIX (79%) and SHL-rFIX (21%). SHA-PTPs (68,772 years) received EHL-rFVIII (31%), SHL-rFVIII (28%), emicizumab (25%), and pdFVIII (15%). SHB PTPs (11,185 years) received EHL-rFIX (69%), pdFIX (15%) and SHL-rFIX (15%). Observed Inhibitor incidence in SHA-PUPs decreased from 24% before 2016 to 6% in 2022 (p < 0.001), and potentially in SHB-PUPs too (from 9% to 3%; p = 0.066), but remained stable in SHA/SHB PTPs. Conclusion: In 2022, 44% of SHA-PUPs and 25% of SHA-PTPs received emicizumab prophylaxis. Concomitantly, observed inhibitor incidence reduced to 6% in SHA-PUPs. In SHB, EHL-rFIX treatment increased to 79% in SHB-PUPs and 69% in SHB-PTPs. Assessing inhibitor incidence for new concentrates is likely to be hampered by novel treatments causing delayed exposure to FVIII/FIX.