Thalassemia is an inherited hemoglobin disorder characterized by chronic hemolytic anemia and substantial long-term healthcare needs. In β-thalassemia major, patients typically require regular red blood cell transfusions with iron chelation to prevent transfusional iron overload. Although supportive care has markedly improved survival, it is associated with a high treatment burden and does not provide a cure. In recent years, curative and disease-modifying therapies have expanded the treatment landscape. Allogeneic hematopoietic stem cell transplantation (HSCT) offers a potentially curative option for selected patients, while autologous gene therapy and gene-editing approaches have shown the capacity to achieve transfusion independence in clinical studies. In parallel, pharmacologic advances—including luspatercept, a transforming growth factor-beta (TGF-β) ligand trap—have been shown to enhance erythropoiesis and reduce transfusion requirements, and emerging agents such as fetal hemoglobin inducers (e.g., thalidomide) and the oral pyruvate kinase activator mitapivat have demonstrated clinically meaningful hemoglobin improvements in selected populations. Adjunctive strategies, including antioxidants, are under investigation to mitigate oxidative stress, and applications of artificial intelligence are increasingly used to support screening, diagnosis, and longitudinal monitoring of iron overload. This review synthesizes recent advances in curative therapies, novel pharmacologic agents, supportive strategies, and AI-enabled tools and highlights priorities for future clinical development and implementation.
Gamaleldin et al. (Wed,) studied this question.