Influence of donor/recipient sex matching on outcome of allogeneic hematopoietic stem cell transplantation for aplastic anemia

Background. Increased risk of transplant related mortality in male recipients of female hematopoietic stem cell grafts and in vitro reactivity of lymphocytes against H-Y encoded gene products in females with rejected male grafts have been documented. An increased rejection of male grafts in female recipients is not reported for solid organ or stem cell transplants and the role of H-Y as transplantation antigen has been controversial. Methods. Data from 1481 patients with a hematopoietic stem cell transplant for aplastic anemia reported from 154 centers in 28 countries were analyzed. Outcome was compared between patients with donors of the same or opposite Sex. Results. Survival at 5 years was significantly better in patients with donors from the same sex: 68% vs. 60% (P=0.001). Male patients with female donors had a decreased survival (relative risk of death 1.52, P < 0.001) and an increased risk of severe graft-versus-host disease (relative risk 1.33, P=0.03) compared to recipients of sex-matched grafts. Female patients with male donors had a decreased survival (relative risk of death 1.44, P=0.01) and an increased risk of rejection (relative risk 2.20, P=0.01) compared to recipients of sex-matched grafts. In a subgroup analysis, the negative effects of donor/recipient sex-mismatching appeared confined to patients receiving conditioning regimens not containing antithymocyte globulin. Conclusions. These data confirm H-Y as a clinically relevant transplantation antigen, in both the graft-versus-host and the host-versus-graft direction. Wherever possible, donor-recipient sex-matching should be integrated into donor selection algorithms

Science-based assessment of source materials for cell-based medicines: report of a stakeholders workshop

Human pluripotent stem cells (hPSCs) have the potential to transform medicine. However, hurdles remain to ensure safety for such cellular products. Science-based understanding of the requirements for source materials is required as are appropriate materials. Leaders in hPSC biology, clinical translation, biomanufacturing and regulatory issues were brought together to define requirements for source materials for the production of hPSC-derived therapies and to identify other key issues for the safety of cell therapy products. While the focus of this meeting was on hPSC-derived cell therapies, many of the issues are generic to all cell-based medicines. The intent of this report is to summarize the key issues discussed and record the consensus reached on each of these by the expert delegates