Although transplants from alternative donors are effective in some patients with leukemia, treatment failure is higher than after HLA-identical sibling transplants. Outcome depends on leukemia state, donor-recipient relationship, and degree of HLA matching. In early leukemia, alternative donor transplants have a more than twofold increased risk of treatment failure compared with HLA-identical sibling transplants. This difference is less in advanced leukemia.
We analyzed the effects of T-cell depletion on the outcome of HLA- identical sibling bone marrow transplants for leukemia by comparing 731 T-cell-depleted transplants with 2,480 non-T-cell-depleted transplants. T-cell depletion decreased acute graft-versus-host disease (GVHD) (relative risk [RR] 0.45; P less than .0001) and chronic (GVHD) (RR 0.56; P less than .0001). However, it increased graft failure (RR 9.29; P less than .0001). Leukemia relapse also was increased. In first remission acute leukemia or chronic phase chronic myelogenous leukemia, leukemia relapse was 2.75 times more likely after T-cell-depleted transplants (P less than .0001). T-cell depletion increased the risk of treatment failure (RR 1.35; P less than .0003) and decreased leukemia- free survival. We also studied controllable variables associated with outcome of T-cell-depleted transplants. The unique findings were that among recipients of T-cell-depleted transplants for early leukemia, radiation doses greater than or equal to 11 Gy (RR 0.54; P less than .01), dose rates greater than 14 cGy/min (RR 0.56; P less than .002), and additional posttransplant immune suppression with cyclosporine alone (RR 0.53; P less than .0006) or cyclosporine plus methotrexate (RR 0.36; P less than .01) were associated with fewer treatment failures. Use of monoclonal antibodies rather than physical techniques for T-cell depletion (RR 2.01; P less than .03) and fractionated radiation (RR 1.69; P less than .05) were associated with increased treatment failure and lower leukemia-free survival. These data may be useful in designing strategies to improve results of T-cell-depleted transplants.
Eight patients who had hematologic relapse of chronic myelogenous leukemia (CML) after undergoing allogeneic bone marrow transplantation (BMT) were treated with leukocyte infusions from the original bone marrow donors. All patients had previously received marrow grafts from HLA-identical siblings. Six patients were in the accelerated phase of their disease and two were in blast crisis. Each patient received a predetermined T-cell dose within a narrow range of 2.5 to 5.0 x 10(8) T cells/kg. Three patients also received short courses of therapy with alpha interferon to control elevated white blood cell counts within the first several weeks after leukocyte transfusions. Seven of eight evaluable patients developed graft-versus-host disease (GVHD) at a median of 32 days after the initial infusion. One patient had fatal GVHD. A second patient had grade 3 acute GVHD, which has responded to immunosuppressive therapy. The remaining patients all had mild grade I GVHD. Six patients continue to require modest doses of prednisone more than 6 months after infusion. Four patients developed marrow aplasia, which in three patients required marrow boosts from the original donors. Two of these three patients have normal hematopoietic function, whereas the third patient remains growth factor and transfusion dependent. Both patients treated in blast crisis have died, one from GVHD and one from disease progression. All six patients in the accelerated phase are alive and in cytogenetic remission at a median of 42 weeks after infusion. Five of these six patients are in molecular remission. This study demonstrates that leukocyte infusions that administered a defined T-cell dose can exert a profound graft-versus- leukemia effect and are an effective form of salvage immunotherapy in allogeneic marrow transplant recipients. This therapeutic approach appears to be a viable alternative to existing chemotherapeutic and immunomodulatory strategies for the treatment of relapsed CML.
Late-onset renal insufficiency is an increasingly recognized complication of bone marrow transplantation (BMT) which occurs between 6 and 12 months after BMT. This syndrome, which has occurred in 25% of our 2-year survivors, is characterized by azotemia, hypertension, and disproportionate anemia. A minority of our subjects have had a presentation similar to hemolytic-uremic syndrome, with rapid decline in kidney function. The others have had slower declines in kidney function, without apparent ongoing hemolysis. Stabilization of function has occurred in about one third of cases. Light microscopy has shown mesangial and endothelial cell dropout with widening of glomerular capillary loops. Electron microscopy has shown a striking subendothelial expansion of the glomerular basement membrane. This syndrome is similar to acute radiation nephritis. Stabilization of kidney function has occurred in some cases, perhaps reflecting control of the blood pressure. Studies of the prevention of this condition are needed because of the frequency of its occurrence and the growing number of BMT worldwide.
About 30% of adults with acute lymphoblastic leukemia (ALL) and 20% to 40% of children and adults with acute myelogenous leukemia (AML) never achieve remission, even with intensive chemotherapy. Most die of resistant leukemia, often within 6 months or less. In this study of 126 patients with resistant ALL or AML, allogeneic bone marrow transplants from HLA-identical siblings produced remissions in 113 of 115 (98%) evaluable patients. The 3-year probability of leukemia-free survival was 21% (95% confidence interval, 15% to 29%). Leukemia-free survival was similar in ALL (23%, 12% to 40%) and AML (21%, 14% to 31%). Only 3 of 27 patients at risk relapsed more than 2 years posttransplant.
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