This is an analysis of 509 patients with severe aplastic anaemia (SAA) treated in Europe between 1981 and 1986; 218 patients were treated by allogeneic bone marrow transplantation (BMT) from HLA identical sibling donors and 291 with immunosuppressive therapy (IS) with antilymphocyte globulin (ALG). The overall actuarial survival was 63% after BMT and 61% after IS therapy at 6 years. All patients fulfilled the criteria of SAA; however, most patients with a neutrophil count of less than 0.2 x 10(9)/l also had infections and haemorrhages. Therefore a further subclassification was defined by pretreatment peripheral blood neutrophil count: very severe aplastic anaemia (vSAA) (less than 0.2 x 10(9)/l neutrophils) and moderately severe aplastic anaemia (mSAA) (0.2-0.5 x 10(9)/l neutrophils). A Cox regression analysis showed that the only significant pre-treatment variables were a low neutrophil count (P = 0.001) and increasing age (P = 0.05). Thus it seemed reasonable to analyse survival data after combined stratification for neutrophils (vSAA versus mSAA) and age (cut off at 20 years). BMT was superior to IS in patients with vSAA under 20 years of age (64% v. 38%; P = 0.01). IS was superior to BMT in patients with mSAA aged 20 or more (82% v. 62%; P = 0.002). The two treatments gave comparable results in young patients with mSAA (BMT = 58%, IS = 62%; P = 0.1), and in older patients with vSAA (BMT = 44%, IS = 43%; P = 0.06). Overall 75/218 and 87/291 patients, given BMT or IS respectively, died. The major cause of failure in BMT patients was graft rejection (n = 22) or problems associated with graft-versus-host disease. For ALG patients the major problem was persistence of the aplasia with haemorrhage (n = 32) or infections (n = 46). This study indicates that over 60% of patients with SAA can be successfully treated with either BMT or IS. Overall survival does not differ in the two groups, though significant differences emerge after stratification for severity of the aplasia and age.
The detection and quantitation of apoptotic cells is becoming increasingly important in the investigation of the role of apoptosis in cellular proliferation and differentiation. The pathogenesis of hematologic disorders such as aplastic anemia and the development of neoplasia are believed to involve dysregulation of apoptosis. To quantitate accurately the proportion of apoptosis cells within different cell types of a heterogeneous cell population such as blood or bone marrow, a method is required that combines the analysis of large numbers of cells with concurrent immunophenotyping of cell surface antigens. In this study, we have evaluated such a method using the fluorescent DNA binding agent, 7-amino actinomycin D (7AAD), to stain three diverse human cell lines, induced to undergo apoptosis by three different stimuli. Flow cytometric analysis defines three populations on the basis of 7AAD fluorescence and forward light scatter. We have shown by cell sorting and subsequent morphological assessment and terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick end labeling that the populations defined by 7AAD represent live, apoptotic, and late-apoptotic/dead cells. This method is quick, simple, reproducible, and cheap and will be a valuable tool in the investigation of the role of apoptosis in normal physiology and in disease states.
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