A randomized comparison of the relative efficacy and toxicity of daunorubicin (DNR) at 30 or 45 mg/sq m or adriamycin (ADM) at 30 mg/sq m, given on the first 3 days of a 7-day continuous infusion of cytosine arabinoside (ara-C) at 100 mg/sq m/day, shows the outcome to be dependent on anthracycline, dose, and patient age. DNR 45 is significantly better than DNR 30 or ADM 30 for inducing complete remissions (CR) in patients younger than 60 yr, (72%, 59%, 58% CRs, respectively). DNR 30 is better than DNR 45 or ADM 30 for inducing CR in patients older than 60 yr (47%, 31%, 35%, respectively). There was a corresponding shift in the induction mortality for the age, dose, and anthracycline groups. Adriamycin was significantly more toxic to the gastrointestinal tract than daunorubicin. The duration of complete remission, with cyclic courses of maintenance therapy, was independent of the patient's age, the dose, or choice of anthracycline used in induction, and of whether the maintenance courses were given every 4 wk or every 8 wk.
In 1971, Cancer and Leukemia Group B (CALGB) mounted a study of acute lymphocytic leukemia (ALL) that compared the effects of the two steroid hormones dexamethasone and prednisone. Six-hundred-forty-six children and adolescents with ALL were randomized to receive either prednisone or dexamethasone as part of their remission induction therapy. The 493 evaluable patients who achieved complete remission received the same steroid as pulses throughout remission. Specific central nervous system (CNS) therapy was randomized to either six injections of intrathecal methotrexate (IT MTX) alone or to six injections of IT MTX with cranial radiation (2,400 cGy). Both cranial radiation and dexamethasone offered increased protection against CNS relapse as the first site of failure over IT MTX alone. There were 30 CNS relapses among 238 patients (12.6%) receiving cranial radiation plus IT MTX, whereas there were 70 CNS relapses among 225 (P less than 0.001) (22.5%) in those who received IT MTX alone. Similarly, there were 33 CNS relapses among 231 (14.3%) children treated with dexamethasone, whereas there were 67 CNS relapses among 262 (25.6%) treated with prednisone (P = 0.017). Both steroids appeared equal in protecting the bone marrow. Recent national studies have shown significant improvements in preventing CNS relapse over the results in the present report. However, this finding warrants further investigation and, with further documentation, could lead to the substitution of prednisone by dexamethasone to aid further in preventing CNS relapse. This may be particularly important in patients at higher risk for CNS relapse.
The efficacy of three therapeutic programs for acute leukemia were compared. These programs included (1) Methotrexate (Phase I) followed by 6-mercaptopurine (Phase II); (2) 6-mercaptopurine (Phase I) followed by Methotrexate (Phase II); and (3) Combination Therapy, i.e., 6-mercaptopurine given in combination with Methotrexate. In children with acute lymphocytic leukemia the remission rate was 59 per cent for combination therapy, 47 per cent for 6-mercaptopurine, and 29 per cent for Methotrexate. The better remission rate for combination therapy is consistent with that predicted if it is assumed that 6-mercaptopurine and Methotrexate act independently. The median duration of complete remissions for the three treatments was not different (4 to 5 months). However, long lasting remissions were more frequent in patients receiving combination therapy. The median survival from the onset of therapy to death was 9 months. There were no differences between the three treatment programs as regards survival. In adults the remission rate was 15 per cent for combination therapy, 21 per cent for 6-mercaptopurine and 7 per cent for Methotrexate. As regards survival in adults, early deaths were more common in patients who received MTX as initial therapy, whereas after 5 months survival was somewhat better in those patients receiving combination therapy. In both children and adults there was no evidence that prior treatment with one of the antimetabolites altered response to the other antimetabolite. This result differs from those in animal models, and its effect on our concept of the mechanism of resistance is discussed. Responsiveness to the second course of antimetabolite therapy (Phase II) was as good as that to the first course of treatment. This was true for the remission rate, remission duration, and even for survival when appropriate corrections were made. Thus, responsiveness to drug therapy is maintained as the disease progresses temporally. It may be concluded therefore that new agents can be effectively studied in patients with "late" disease. Responsiveness to Phase II therapy was independent of responsiveness to Phase I. The most common and severe toxic manifestations related to the bone marrow and gastrointestinal tract. There were no major differences quantitatively in the toxicity for the three treatment programs in children in spite of the fact that the drugs were given in full dosage in the combination program. Oral ulcers and a generalized erythematous rash occurred significantly more frequently in patients receiving Methotrexate. Jaundice was significantly more frequent in adults and in patients receiving 6-MP.
Arabinosyl cytosine (ara-C), a synthetic pyrimidine nucleoside related to the normal metabolites cytidine and deoxycytidine, has been found capable of producing marrow remission at tolerable doses in acute myelocytic and acute lymphocytic leukemia in adults. There were 16 per cent remissions complete in all aspects, 3 per cent complete except for hemoglobin level, and 6 per cent partial remissions among 180 adults with acute myelocytic leukemia treated with any one of 8 variants of infusion duration or daily dose of ara-C. Twenty-four per cent of 37 adults with acute lymphocytic or unclassified leukemia had complete or partial remissions. The comparison of 1, 4, 12 and 24 hours infusion of ara-C (to total dose tolerated) does not show significant superiority for any one group. The complete remission rate with 1 or 12 hour infusions, however, is 25 per cent (superior to that obtained with 6-mercaptopurine) and the recommended schedule of treatment for ara-C based on these data is, therefore, daily infusions of 100 or 50 mg./m.2 in one hour for approximately 3 to 6 weeks followed by maintenance therapy of once weekly subcutaneous injection of 30 mg./m.2 of ara-C. Platelet transfusions should be available when ara-C is used.
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