T-cell receptor (TCR) delta gene rearrangements are observed in more than 80% of acute lymphoblastic leukemia (ALL) patients. Moreover, a preferential usage of specific genetic elements has been shown in different ALL subtypes: V delta 1 DJ delta 1 rearrangements predominate in T-ALL, while most B-precursor ALLs show a recombination of V delta 2 to D delta 3. Recently we have proposed a strategy for the detection of minimal residual disease (MRD) based on the isolation of clonospecific probes following the in vitro amplification of V delta 1 DJ delta 1 junctions by polymerase chain reaction (PCR) and now have adapted this method to the preparation of specific V delta 2 D delta 3 fragments. In the present study, clonospecific probes were generated from 11 T-ALL and 16 cALL patients (21 children, 6 adults). The sensitivity of these 27 probes in detecting residual leukemia cells varied between 10(-4) to 10(-6) as determined by semiquantitative evaluation of dilution experiments. PCR analysis of 55 bone marrow (BM) and peripheral blood (PB) samples obtained from the 27 patients during complete clinical remission showed the following results: (1) Evidence for MRD was obtained in the BM of all patients (eight of eight) investigated 2 to 6 months after remission induction and also in 6 of 11 cases on maintenance therapy 7 to 19 months after diagnosis. (2) In contrast, all patients but one (10 of 11) analyzed 6 to 41 months after the termination of treatment lacked apparent evidence for leukemia DNA; the exception was a girl exhibiting 10(-4) to 10(-5) residual cells in her PB 5.5 years after diagnosis. (3) Longitudinal analysis in nine patients disclosed marked individual differences in the intervals between achievement of clinical remission and complete eradication of the leukemia cell clone. (4) Differences in the duration of MRD were not associated with distinct clinical-hematologic features. (5) Detection of residual disease by PCR proceeded clinical relapse in two cases.
We treated 305 de novo acute myeloid leukemia (AML) patients aged =60 years with risk-adapted therapy. Patients with CBF leukemias or normal karyotype and good response to induction I [=5% bone marrow (BM) blasts on day 15] were considered standard risk (SR), all others as high risk (HR). Patients with t(15;17) were excluded. Chemotherapy comprised double induction followed by early consolidation. As late consolidation, SR patients received high-dose cytarabine/daunorubicin (AraC/DNR). SR patients with normal karyotype were allotransplanted from HLA-matched siblings. HR patients were allotransplanted or if no sibling donor was available autotransplanted with peripheral blood progenitor cells (PBSC) harvested after early consolidation. 89% of the SR and 60% of the HR patients achieved CR. The continuous complete remission (CCR) rate at 80 months (median follow-up: 48 months) was 48% for SR and 32% for HR. The CCR rate was 54% for t(8;21), 47% for normal karyotype, and 33% for inv(16) patients. In the HR group, the CCR rate did not differ significantly for patients with bad response to IVA-I, unfavorable karyotype, or both. Forty-five HR patients were autotransplanted (n=20) or allotransplanted (n=25). The probability of CCR was 44% for autotransplantation vs 33% for allotransplantation. In conclusion, our risk-adapted strategy produced encouraging results in SR patients. Early response to therapy is a strong prognostic factor that predicts the probability of CR and long-term outcome.
The biologic effects of recombinant tumor necrosis factor-alpha (rTNF- alpha) and the expression of specific TNF membrane receptors on isolated neoplastic B cells from previously untreated patients with chronic lymphocytic leukemia (CLL) were investigated in vitro. Isolated B cells were incubated up to six days with various concentrations of rTNF-alpha (0.1 to 100 ng/mL). B cells from most patients proliferated ranged from two to 104 times that of unstimulated cells from the same patients. An optimal proliferative effect was achieved at 25 ng/mL rTNF- alpha and an incubation time between 96 and 120 hours, whereas a low concentration of rTNF-alpha (1 ng/mL) reduced [3H]TdR incorporation in four cases. Metaphase cells were detected in the rTNF-alpha-stimulated cultures that proliferated in response to rTNF-alpha. B cells from three of ten patients proliferated spontaneously and proliferation was further enhanced in two patients by rTNF-alpha. TNF binding assays gave a value of approximately 390 to 1,400 binding sites/cell for TNF and a dissociation constant (kd) of approximately 60 pmol/L. These data indicate that rTNF-alpha, in contrast to its cytotoxic/cytostatic effects, can also induce proliferation of tumor cells.
Decrease of blood cells may be induced by either components of co-trimoxazole. Side effects of the trimethoprim component are much more frequent, particularly in risk groups. They are dose dependent, usually not severe, only rarely of clinical significance and easily treated or prevented by folate supplementation. In contrast, side effects of the sulfamethoxazole component seem to be extremely rare. They are similar to the hematological side effects of other sulfonamide drugs. They are idiosyncratic, nonpredictable and mostly mediated by the immune-system. They may be of life-threatening severity and no therapy is known except termination of exposure and supportive measures such as substitution of blood cells and antiinfectious therapy by non-related antibiotics.
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