Gene therapy in transfusion-dependent non-β0/β0 genotype β-thalassemia: first real-world experience of beti-cel.

Gene addition and editing strategies for transfusion-dependent β-thalassemia have gained momentum as potentially curative treatment options, with studies showcasing their efficacy and safety. We report, to our knowledge, the first real-world application of betibeglogene autotemcel (beti-cel; Zynteglo) during its period of active license in Europe from January 2020 to March 2022 for patients aged ≥12 years without a β0/β0 genotype and without a HLA-matched sibling donor, before beti-cel marketing authorization was withdrawn by its holder because of nonsafety reasons. Among 15 screened patients, 4 opted out for fertility and safety concerns, 2 were excluded because of marked hepatic siderosis, and 1 had apheresis collection failure. Eight patients received beti-cel after busulfan myeloablative conditioning, all achieving transfusion independence within 8 to 59 days, with posttreatment hemoglobin levels ranging from 11.3 to 19.3 g/dL. No deaths occurred, but acute toxicity mirrored busulfan's known effects. Posttreatment platelet management faced challenges because of HLA-antibodies in 3 patients. Monitoring up to month 24 revealed pituitary-gonadal endocrine dysfunction in all 3 female and in 2 of 5 male patients. Additionally, we observed unexpected posttreatment sequelae: 1 patient developed polycythemia that could not be explained by known genetic or acquired mechanisms, 1 patient developed posttreatment depression and anxiety prohibiting her from returning to work, and 1 patient developed fatigue severely compromising both quality of life and work capacity. This real-world experience corroborates beti-cel's efficacy and safety and provides information on adverse events observed during real-world use of the therapy.