Bone marrow transplantation (BMT) remains the only potentially curative treatment for patients with thalassemia major. However, most candidates for BMT do not have a suitable family donor. In order to evaluate whether BMT from an HLA-matched unrelated volunteer donor can offer a probability of cure comparable to that obtained when the donor is a compatible sibling, we carried out a study involving 68 thalassemia patients transplanted in six Italian BMT Centers. Thirty-three males and 35 females (age range, 2-37 years; median age, 15) were transplanted from unrelated volunteer donors, all selected using high-resolution molecular typing of both HLA class I and II loci. Fourteen patients were classified in risk class 1; 16 in risk class 2; and 38 in risk class III of the Pesaro classification system. Nine patients (13%) had either primary or secondary graft failure. Fourteen patients (20%) died from transplant-related causes. Grade II-IV acute graft-versus-host disease (GVHD) developed in 24 cases (40%), and chronic GVHD in 10 cases (18%). Overall survival (OS) in the cohort of 68 patients was 79.3% (CI 67-88%), whereas the Kaplan-Meier estimates of disease-free survival (DFS) with transfusion independence was 65.8% (CI 54-77%). In the group of 30 thalassemic patients in risk classes 1 and 2, the probability of OS and DFS were 96.7% (CI 90-100%) and 80.0% (CI 65-94%), respectively, whereas in the 38 patients in class 3 OS was 65.2% (CI 49-80%) and DFS was 54.5% (CI 38-70%). These data show that when donor selection is based on stringent compatibility criteria, the results of unrelated transplantation in thalassemia patients are comparable to those obtained when the donor is a compatible sibling.
Allogeneic bone marrow transplantation (BMT) from a genotypically identical family donor is an accepted therapeutic option for homozygous beta-thalassemia. However, only a minority of patients have access to this curative procedure. The aim of this study is to explore the feasibility of matched unrelated transplants in thalassemia and the possibility of reducing the risk of immunologic complications through careful selection of donor/ recipient pairs. Since November 1992, 32 patients (age range, 2-28 years) have been enrolled. There were 4 patients assigned to risk-class I, 11 to risk-class II, and 17 to risk-class III of the Pesaro classification. Extended haplotype analysis and family segregation studies were employed for identification of suitable donors. Of the 32 donor/recipient pairs, 24 were identical for HLA-A, B, C, DRB1, DRB3, DRB4, DRB5, DQA1, and DQB1 loci; 7 pairs were identical for 2 extended haplotypes, and 15 pairs shared one extended haplotype. Grade II-IV acute graft-versus-host disease (GVHD) developed in 11 cases (41%) and chronic GVHD in 6 (25%) out of 24 patients at risk. There are 22 patients (69%) who are alive and transfusionindependent after a median follow-up of 30 months (range, 7-109 months). There were 6 patients (19%) who engrafted and subsequently died from transplant-related complications. In 4 cases (12.5%) graft rejection was observed within 30 days and it was followed by autologous IntroductionAllogeneic bone marrow transplantation (BMT) from a genotypically identical family donor has radically changed the prognosis of patients with homozygous beta-thalassemia. For young patients at an early stage of disease, the reported percentage of thalassemiafree survival and the mortality risk were 91% and 8%, respectively. 1,2 Transplantation performed on older, heavily iron-loaded patients, in particular those with liver abnormalities, has a lesssatisfactory outcome, the probability of thalassemia-free survival and mortality being 51% and 32%, respectively. 3 The probability of finding an HLA-identical donor within the family is less than 30% in western countries. 4 For the remaining 70% of patients with thalassemia, there was until recently no option other than treatment based on chronic transfusion and ironchelating therapy. Although optimization of protocols for transfusion and chelation has dramatically improved the life expectancy of these patients, complications of iron overload cannot be completely avoided. 5,6 Full compliance with a chronic transfusion regimen and a daily, lifelong injective chelation therapy has been shown to be difficult to maintain with advancing age. 7 Multiple endocrine dysfunctions, myocardiopathy, progressive liver fibrosis, and consequences of posttransfusion viral infections affect the quality of life and increase the mortality risk with age. [7][8][9] During the past 10 years, BMT from unrelated donors has been increasingly employed for hematologic malignancies and lifethreatening inborn errors. [10][11][12] At first, results were characterized by el...
Summary. Photopheresis (ECP) is a new type of photochemotherapy, used for the treatment of oncological and autoimmune diseases. Lymphocytes are drawn from the patients by leukapheresis, treated with 8-methoxypsoralen (8-MOP) and ultraviolet light A (UVA) in an extracorporeal system and then reinfused. Skin exposure to 8-MOP and UVA (PUVA) has been shown to relieve cutaneous symptoms of graft-versus-host disease (GVHD) in bone marrow transplant (BMT) recipients. ECP, which is similar in some ways to PUVA, has been used in this study to treat four paediatric patients who developed chronic GVHD following BMT and in whom GVHD had failed to respond to conventional immunosuppressive therapy. Following ECP, skin lesions cleared almost completely and pulmonary function tests improved in two of three patients with cutaneous and lung involvement. Serum bilirubin and transaminases gradually normalized, and gGT decreased considerably in the remaining patient who had a severe cholestatic hepatopathy. The Karnofsky performance score increased to 90% in the three patients with positive responses to ECP and remained unchanged (40%) in the patient who did not respond. Immunosuppressive therapy was reduced in three patients and eventually discontinued in two. No significant sideeffects were observed during the treatment. Our results suggest that ECP is a non-aggressive treatment that may benefit patients with chronic GVHD who do not respond to standard immunosuppressive therapy.
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