Five patients, four women and one man, age 32–8- yr, all whites, had refractory anemia with the same abnormal bone marrow karyotype, i.e., a partial deletion of the long arm of the No. 5 chromosome. The hematologic syndrome was practically the same in these five cases. Examination of the blood revealed a moderate to severe, generally macrocytic anemia with slight leukopenia but normal or elevated platelet count. The bone marrow showed a depressed erythroid series and some abnormalities of the granulocytic series with an occasional excess of myeloblasts. Most of the megakaryocytes had a nonlobulated nucleus. These features, as well as cytogenetic, electron microscopic, isotopic, platelet function, and immunologic studies, are described in detail. The relationship of this newly established syndrome to other hematologic diseases is discussed. The syndrome constitutes another example of the association between a specific abnormal chromosome and a distinct hematologic disorder.
Polyclonal intravenous IgG (IVIG) was administered as an infusion 6 times every 3 weeks (weekO, 3, 6, 9, 12, 15) in doses of 0.1, 0.4 and 0.8 g/kg BW to determine the dose causing an increase in 12 pneumococcal antibody types above the protective level of 200 ng/ml of antibody N. The dose of 0.4 g/kg BW was found to be optimal in patients with chronic lymphocytic leukaemia (CLL). From the first infusion onwards at least 80% of CLL patients had increases in all 12 antibodies. Five weeks after the last infusion the antibody levels were still elevated in 80% of patients with CLL. The dose of 0.8 g/kg raised all 12 antibodies in 53–73% of CLLpatients when assessments were made after each infusion. In multiple myeloma (MM) patients, 73–82% and 73–91 % of patients had increased antibody levels, respectively, before and after the 4th–6th infusions at the 0.8 g/kg dose level. However, in only 45–50% of patients did the antibodies remain increased 2 weeks after the treatment at this dose. The dose of 0.4 g/kg caused antibody increases in only 30–50% of patients when measured before the 4th–6th infusion. Serum IgG increased significantly only in the CLL patients, whereas in the MM patients it was high from the beginning owing to the disease. Therefore, the pneumococcal antibody levels were a better marker for the purpose of dose finding. The dosage recommendation in CLL is 0.4 g/kg every 3 weeks until week 12, when steady state is reached. The maintenance dose is 0.4 g/kg every 5 weeks. In MM patients, who have a faster elimination rate of antibodies, the recommended loading dose is 0.8 g/kg, followed by 0.4 g/kg every week as a continuous treatment. Treatment with IVIG in CLL and MM was generally well tolerated. Only 25% of patients experienced minor side-effects, the most frequent being febrile reactions, shivering and headache.
Cytogenetic data were studied in 26 patients with de novo acute myeloid leukemia (AML) with minimal myeloid differentiation, corresponding to the M0 subtype of the French-American-British classification, in correlation with cytoimmunologic and clinical findings. Clonal abnormalities were detected in 21 cases (80.7%), 12 of which had a complex karyotype. Partial or total monosomy 5q and/or 7q was found, either as the sole aberration or in all abnormal metaphases, in 11 patients; in 8 cases, additional chromosome changes were present, including rearrangements involving 12p12–13 and 2p12–15 seen in 3 cases each. Five patients had trisomy 13 as a possible primary chromosome change; in 5 cases, nonrecurrent chromsome abnormalities were observed. Comparison of these findings with chromosome data from 42 patients with AML-M1 shows that abnormal karyotypes, complex karyotypes, unbalanced chromosome changes (-5/5q- and/or -7/7q- and +13) were observed much more frequently in AML-M0 than in AML-M1. Patients with abnormalities of chromosome 5 and/or 7 frequently showed trilineage myelodysplasia and low white blood cell count. Despite their relatively young age, complete remission was achieved in 4 of 11 patients only. Patients with +13 were elderly males with frequent professional exposure to myelotoxic agents. Unlike patients with clonal abnormalities, most AML-M0 patients with normal karyotype showed 1% to 2% peroxidase-positive blast cells at light microscopy and frequently achieved CR. It is concluded that (1) AML-M0 shows a distinct cytogenetic profile, partially recalling that of therapy-related AML, (2) different cytogenetic groups of AML-M0 can be identified showing characteristic clinicobiologic features, and (3) chromosome rearrangements may partially account for the unfavorable outcome frequently observed in these patients.
Cytogenetic, biomolecular, and clinicopathologic features were retrospectively studied in 34 adult patients with acute myelogenous leukemia expressing one or more of the following lymphoid-associated markers (LMs): CD7, CD2, CD10, CD19, CD22, TdT. Six patients showed 11q23 rearrangements (group I); three patients had the classic Ph chromosome (group II); 15 patients had aberrations of the myeloid type (group III), including four patients with structural aberrations of 13q or trisomy 13, three patients with 7q and 1q anomalies, and two patients with trisomy 11q. Ten patients had a normal karyotype (group IV). Anomalies exclusively associated with lymphoid malignancies were not seen. Ig H and/or T-cell receptor genes were found to be rearranged in 50% and 66% of patients in cytogenetic groups I and II, respectively, versus 8% in group III and 12% in group IV. Likewise, more than one LM was more frequently detected in groups I and II. In group III, two of four patients with aberrations of chromosome 13 expressed two or more lymphoid features. Clinically, patients belonging to cytogenetic groups I and II were generally young, presented with a high white blood cell (WBC) count, and had a low complete remission rate. Survival in Ph chromosome-positive cases was uniformly short. We conclude that although there is no cytogenetic anomaly specifically associated with acute myelogenous leukemia expressing LM, a Morphologic, Immunologic, and Cytogenetic classification may constitute a working basis for further studies aimed at a better definition of clinicopathologic features and optimal treatment strategies for these leukemias.
We sequentially studied bone marrow (BM) samples of 25 patients in complete remission of an acute lymphoblastic leukemia (ALL) using a simplified polymerase chain reaction (PCR) strategy (direct use of the PCR product as a clonogenic probe recognizing rearranged Ig heavy chain sequences) as a first approach. BM aspirates were serially investigated after obtention of a complete response. When sensitivity was less than 1:10(4), the PCR fragment was sequenced and a specific oligonucleotide was synthetized and used as a probe (five cases). Cases in which minimal residual disease (MRD) became undetectable were cross- controlled using either TCR delta rearrangement or a specific translocation to circumvent the problem of false-negative results arising from clonal evolution. The median follow-up was 30 months (3 to 51 months). Within the first 3 months of complete remission, MRD was detectable in 22 of 23 investigated patients and remained so in 19 of 21 patients examined at 6 months, regardless of the long-term clinical outcome. In patients remaining in complete remission at 30 months or more, two patterns of MRD emerged during the follow-up. Either it continuously decreased to ultimately become undetectable (five patients) or remained detectable (five patients) with an increase after discontinuation of treatment in two. In the eight patients who relapsed, MRD persisted throughout the clinical course, and eventually increased 3 to 12 months before relapse was clinically detectable. In one case, clonal evolution of the VDJ heavy chain region was observed and recurrence of MRD shown by the use of TCR delta rearrangement as a control. We conclude that the use of this simplified methodology is a valuable tool for the follow-up of MRD in a majority of ALL patients, though in a few cases, sequencing needs to be performed to achieve a relevant sensitivity. The possibility of clonal evolution requires a cross-control of any sample becoming negative whatever the initial rearrangement used to generate a probe. In patients on therapy, sequential search for MRD seems to be a good tool for predicting the long-term outcome. In addition, patients remaining positive at the time treatment is discontinued or with a high tumor burden after a few months therapy may be at a higher risk of subsequent relapse, although a longer follow-up is needed to answer this question.
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