Overview of the Current Issues and Advances in Haemopoietic Stem Cell Transplantation for β-thalassemia Major

Bone marrow transplantation (BMT) is the only possible curative treatment for β-thalassemia major. The largest experience occurred in Pesaro, Italy, where the BMT was applied after a standard risk assessment. The patients were divided into 3 risk classes based on liver size by physical examination, the presence or absence of fibrosis by liver biopsy, and adherence to regular iron chelation. Outcomes were mainly affected by the risk status. After modifications to the conditioning regimens, the risk of transplantation-related complications in highrisk recipients reduced considerably. As a result, outcomes after transplantation have become more similar across risk categories. For BMT, most centers use bone marrow instead of peripheral blood in thalassemia. Some studies showed that peripheral blood stem cell transplantation (PBSCT) is better than BMT with regard to hematologic recovery, hospitalization period, leukemia-free survival, overall survival (OS), and transplant-related mortality (TRM). No significant differences were seen in grade II to IV acute GVHD (aGVHD); but the incidence of chronic GVHD (cGVHD) was significantly higher in the PBSCT group. BMT from unrelated donors may offer similar results to those obtained using HLA-identical family donors, at least for patients who are not fully compliant with conventional treatment and do not yet show severe complications of iron overload. All studies conclude that MUD BMT might be a good alternative for patients with less risk factors. Another study concluded that, at present, due to high graft failure and GVHD rates, BMT from alternative donors should be restricted to patients who have poor life expectancies because they cannot receive adequate conventional treatment or because of alloimmunization to minor blood antigens. In another study unrelated cord blood transplantation (CBT) was compared to related donor transplantation for children with β-thalassemia. The results were comparable to the survival rates of related-donor BMT for thalassemia. It has always been a dream for parents to have a new baby who might be a donor for his/her sibling and save his/her life. Today some families tried to learn the HLA group of the fetus using prenatal diagnosis. The last step in this development was preimplantation genetic diagnosis (PGD). PGD has become available as an alternative to prenatal diagnosis in order to avoid the risk for pregnancy termination, because PGD allows selection of unaffected embryos before a pregnancy is established. Gene therapies, the ultimate idea, involves replacing allogeneic stem cell transplantation with the transfer of normal globin genes into patientderived autologous haematopoietic stem cells, bypassing the need for allogeneic donors and the immunosuppression required to achieve engraftment of the transplanted cells and to eliminate the risk of donor-related graft-versus-host disease. The successful preclinical studies in thalassaemia mousemodels, the accumulating data on lentiviral vector-mediated HSC transduction and the anticipated increased safety of lineage-restricted globin SIN lentiviral vectors strongly support the initiation of Phase I gene therapy clinical trials in β-thalassaemia.