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Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cytopenias are typical of patients with connective tissue disease (CTD) and are usually related to autoimmune phenomena. In some cases, cytopenia may be the result of treatment with cytotoxic agents. Although multi-drug therapy is known to produce myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML) in patients with CTD, treatment with single-agent therapy, particularly methotrexate, has rarely been associated with secondary MDS or AML. Blood and marrow samples were studied from 3 men and 5 women with rheumatoid arthritis (5 cases), Behcet's disease (2 cases), and systemic lupus erythematosus (1 case) developing MDS or AML after methotrexate (5 cases), chlorambucil (2 cases), and cytoxan (1 case). The durations of CTD ranged from less than 6 months to more than 10 years. Five patients (63%) presented with MDS including refractory anemia (RA), refractory thrombocytopenia (RT),
refractory anemia with excess blasts
(
RAEB
), chronic myelomonocytic leukemia (CMML), and
RAEB
in transformation. Patients with RT, CMML, and
RAEB
in transformation developed AML. Of six patients presenting with or developing AML, four had AML with differentiation (FAB M2), one acute myelomonocytic
leukemia
(FAB M4), and one M4Eo. Inv 16 was seen in the M4Eo and t(8;21) in one case of M2. Four of six patients are alive up to 6 years after diagnosis of AML. One of three patients with MDS is alive 6 months after diagnosis of MDS. Cytopenias in patients with CTD may be due to therapy-related MDS or AML occurring in a setting of single-agent chemotherapy, including methotrexate.
...
PMID:Myelodysplastic syndromes and acute myeloid leukemia in connective tissue disease after single-agent chemotherapy. 892 81
To evaluate diagnostic criteria, disease characteristics, and the clinical course of pediatric myelodysplastic syndrome (MDS), we reviewed 327 consecutive cases diagnosed with de novo acute myeloid leukemia (AML) or MDS at St Jude Children's Research Hospital between February 1980 and January 1993. Among 49 cases with <30% marrow blasts (consistent with FAB criteria and common diagnostic practice for MDS), eight had karyotypes associated with de novo AML (four with t(8;21)(q22;q22) and one each with inv(16)(p13q22), t(11;17)(q23;q21), t(9;11)(p22;q13), and i(1)(ql0)). We termed these cases AML with a low blast count (AML-LBC) and compared their clinical and morphologic features with those of the remaining 41 cases. AML-LBC cases had little or no hematopoietic dysplasia. MDS cases consisted of refractory anemia (RA, n=6), RA with ring sideroblasts (n=2), RA with excess blasts (
RAEB
, n=4),
RAEB
in transformation (n=14), and chronic myelomonocytic leukemia (n=15). Most had moderate/severe or multilineage hematopoietic dysplasia, with significantly higher dysplasia scores than AML-LBC cases (P=0.007). Only 30% of patients with MDS achieved complete remission (CR) after two cycles of AML-directed therapy, compared with 88% of patients with AML-LBC (P=0.0001); MDS patients tended to experience prolonged severe cytopenias with chemotherapy. The 4-year survival for MDS patients was 23% +/- 7% (s.e.), vs 50% +/- 18% (s.e.) for AML-LBC (P=0.048). AML-LBC patients frequently had chloromas; none were seen in MDS patients. We conclude that the 30% blast threshold is ineffective for separation of AML and MDS in pediatric patients, and that genetic data should be included in this decision process. AML-LBC, defined by <30% blasts in bone marrow and cyto- (or molecular) genetic abnormalities associated with de novo AML, and characterized by absent or mild marrow dysplasia, is biologically and clinically distinct from MDS and should be treated as de novo AML. Outcome in pediatric MDS remains poor, and new treatment strategies are needed for these patients.
Leukemia
1997 Feb
PMID:Myelodysplastic syndrome in children: differentiation from acute myeloid leukemia with a low blast count. 900 82
Apoptosis of hematopoietic progenitor cells is increased in myelodysplastic syndromes (MDS). We have studied Fas (CD95/Apo-1) antigen expression in 27 MDS patients (RARS 4, RA 3,
RAEB
13;
RAEB
-t 3, CMML 4) and three AML secondary to MDS. We found that the Fas antigen was not expressed on normal bone marrow (BM) CD34+, CD14+, or glycophorin+ cells, and only slightly on CD33+ cells. Patients with MDS had upregulation of Fas expression on total bone marrow nuclear cells (BMMC) (t-test, P = 0.04), CD34+ (P = 0.013), CD33+ (P = 0.04), and glycophorin+ (P = 0.032) BM cells compared to controls. Fas expression did not correlate to the FAB subtype, the Bournemouth score, or to peripheral cytopenias. However, Fas expression intensity on CD34+ cells negatively correlated to the BM blasts number (Spearman, P = 0.01) suggesting that leukemic blasts cells lose Fas antigen expression with progression of myelodysplasia. Using both proliferation assays in liquid cultures and clonogenic progenitor assays in the presence of an agonist anti-Fas MoAb (CH11), we showed that the Fas protein was functional in some patients. Dose-dependent inhibition of DNA synthesis was observed in three out of seven patients studied. CFU-GM and BFU-E colonies suppression in some patients suggested that Fas can induce apoptosis in myeloid and erythroid BM progenitors of MDS patients. The TUNEL technique on BM smears gave a mean of 12.6% +/- 2.5 of bone marrow apoptotic cells in five controls. Patients with MDS had increased bone marrow apoptosis (mean 39% +/- 5.7, t-test, P = 0.012). Four out of 15 (26%) patients studied with a sensitive radiolabeled DNA ladder technique had typical DNA ladders indicative of advanced stages of apoptosis. Massive BM suicide was observed in patients with RA (2/2) and
RAEB
(8/11), whereas apoptosis rates were normal or low in patients with
RAEB
-t (3/3) or secondary AMLs (3/3). Moreover, high rates of apoptosis correlated to low Bournemouth score (Spearman, P = 0.01). No statistical correlation could be found between Fas expression and apoptosis rates. Our results confirm the importance of programmed cell death in MDS. The Fas antigen is clearly upregulated on BM cells, but its role in the pathophysiology of apoptosis in myelodysplasia is still unclear, indicating that many factors positively or negatively interfere with the Fas-mediated pathway of apoptosis in vivo and in vitro.
Leukemia
1997 Jun
PMID:Fas/Apo-1 (CD95) expression and apoptosis in patients with myelodysplastic syndromes. 917 38
Previous studies have shown that the cyclin-dependent kinase inhibitor (CDKI) genes p15INK4B and p16INK4A are frequently inactivated by genetic alterations in many malignant tumors and that they are candidate tumor-suppressor genes. Although genetic alterations in these genes may be limited to lymphoid malignancies, it has been reported that their inactivation by aberrant methylation of 5' CpG islands may be involved in various hematologic malignancies. In this study, we investigated the p15INK4B and p16INK4A genes to clarify their roles in the pathogenesis of myelodysplastic syndrome (MDS). Southern blotting analysis showed no gross genetic alterations in either of these genes. However, hypermethylation of the 5' CpG island of the p15INK4B gene occurred frequently in patients with MDS (16/32 [50%]). Interestingly, the p15INK4B gene was frequently methylated in patients with high-risk MDS (
refractory anemia with excess blasts
[
RAEB
],
RAEB
in transformation [
RAEB
-t], and overt
leukemia
evolved from MDS; 14/18 [78%]) compared with patients with low-risk MDS (refractory anemia [RA] and refractory anemia with ring sideroblast [RARS]; 1/12 [8%]). Furthermore, methylation status of the p15INK4B gene was progressed with the development of MDS in most patients examined. In contrast, none of the MDS patients showed apparent hypermethylation of the p16INK4A gene. These results suggest that hypermethylation of the p15INK4B gene is involved in the pathogenesis of MDS and is one of the important late events during the development of MDS.
...
PMID:Hypermethylation of the p15INK4B gene in myelodysplastic syndromes. 926 57
Refractory anemia (RA) in myelodysplastic syndromes (MDS) are very heterogeneous diseases regarding their morphology, clinical features and survival. We proposed the new designations 'RA with severe dysplasia (RASD)' and 'RA with minimal dysplasia (RAminiD)'. In our criteria, RASD is considered present if a bone marrow (BM) examination shows Pseudo-Pelger-Huet anomalies of mature neutrophils > or =3% and/or micromegakaryocytes (mMgk) of megakaryocytes > or =10% in RA patients. RAminiD is defined as RA cases other than RASD. After the reclassification of 58 primary RA patients, the group was composed of 45 RAminiD and 13 RASD patients. The blast percentage in the BM and the frequency of cytogenetic abnormalities observed in the RASD patients were intermediate between those in the RAminiD and
RAEB
patients. The analysis of survival curves revealed differences among the three groups; the RASD patients had lower survival probabilities than those of the RAminiD group, and significantly higher probabilities than those of the
RAEB
group. (RAminiD vs RASD, P=0.06; RASD vs
RAEB
, P=0.004.) Our data indicate that in RA patients, RASD is a distinct subset of RA with an unfavorable clinical outcome.
Leukemia
1998 Apr
PMID:Refractory anemia with severe dysplasia: clinical significance of morphological features in refractory anemia. 976 15
Myelodysplasia (MDS) is mostly characterized by a normal or increased number of normoblasts in the bone marrow and an impaired in vitro colony formation. In the present study we analyzed whether this might be due to a disconnection between proliferation and differentiation. CD34+/CD36- sorted bone marrow cells of 18 MDS patients were cultured in a clonogenic and suspension culture assay in the presence of erythropoietin (Epo) and mast cell growth factor (MGF). Burst-forming units erythroid (BFU-E, 75 +/- 88/10(4) CD34+ cells, X +/- s.d.) and colony-forming units E (CFU-E) were observed in eight of the 13 cases (62%) with refractory anemia with or without ring sideroblasts (RA and RARS) and one of the five cases with RA with excess of blasts or in transformation (
RAEB
and RAEB-T). Suspension cultures with CD34+/CD36- sorted cells with Epo plus MGF demonstrated an 8.9 +/- 6.5-fold expansion after 7 days in cases with >10 BFU-E/10(4) CD34+/CD36- cells while cases with <10 BFU-E/10(4) CD34+/CD36- cells demonstrated 1.0 +/- 0.8-fold expansion especially in cases with
RAEB
/RAEB-T. FACS and morphology analysis after 7 days of suspension culture demonstrated partial differentiation along the erythroid lineage in cases with RA/RARS (75%) and
RAEB
/RAEB-T (66%) reflected by the presence of erythroblasts and normoblasts with variable expression of CD34, CD36 and Glycophorin A. In cases with erythroid colony formation 69 +/- 24% of the cells were CD34-/CD36+ and in cases with <10 BFU-E/10(4) CD34+ cells 18 +/- 16% of cells were CD34-/CD36+. Iron staining showed the presence of ring sideroblasts in two cases with RARS indicating that the cells originate from the abnormal erythroid clone. Finally, it was shown that cases with an impaired proliferative response demonstrate an enhanced binding of Annexin-V on CD34+ cells during the first days of the cell suspension culture phase. These results suggest that a defect in the proliferative response is most pronouncedly expressed in MDS whereas a subpopulation of cells retain the capacity to differentiate between transition to a terminated stage.
Leukemia
1998 Jun
PMID:CD34+/CD36- cells from myelodysplasia patients have a limited capacity to proliferate but can differentiate in response to Epo and MGF stimulation. 1008 48
The Chronic Leukemia Working Party of the EBMT has collected data on 118 patients of median age 24 years (range 0.3 to 53 years) who underwent an allogeneic bone marrow transplantation from unrelated donors for treatment of MDS or secondary AML (RA/RARS, n = 24;
RAEB
, n = 26;
RAEB
-t, n = 34; CMML, n = 12; sAML, n = 22) between 1986 and 1996. The data were reported by 49 EBMT centers. Thirty-four of 118 patients are alive, relapse was the cause of death in 19 of 84 patients and the remaining patients died of transplant-related mortality. For the whole group the actuarial probability of survival at 2 years is 28%, disease-free survival 28%, relapse risk 35% and transplant-related mortality is 58%. The transplant-related mortality is significantly influenced by the age of the recipient (<18 years 40%, 18-35 years 61%, >35 years 81%). The relapse rate after BMT is influenced by FAB classification of the disease at BMT. Patients with a low blast count (RA,
RAEB
) have a lower probability of relapse (13%, 15%) compared to patients with
RAEB
-t or sAML (29%, 45%). Furthermore, we found evidence of a graft-versus-
leukemia
effect in MDS/sAML. Patients with acute GVHD, grade II-IV, had a probability of relapse of 26% vs 42% in patients with no acute GVHD or grade I only. Allogeneic transplantation with an HLA-matched, unrelated donor may be offered to younger patients (age <35 years) with poor risk myelodysplasia or secondary AML.
...
PMID:Unrelated bone marrow transplantation in patients with myelodysplastic syndromes and secondary acute myeloid leukemia: an EBMT survey. European Blood and Marrow Transplantation Group. 967 54
Fourty children with MDS treated in seven centres of The Polish Children's
Leukemia
Lymphoma Study Group in period 1975-1998y were included to the study. In 16 children RAEB-T, in 2 CMML in 10 RA and in 12
RAEB
were diagnosed. Our and literature data showed that BMT is the best therapy for children with MDS. For children, who don't have a donor for BMT. Roacutan therapy seems to be the most effective.
...
PMID:[Treatment outcome for myelodysplastic syndromes (MDS) obtained by the Polish Children's Leukemia/Lymphoma Study Group]. 968 18
The clonality of mature peripheral blood-derived myeloid and lymphoid cells and bone marrow haemopoietic progenitors from 18 females with myelodysplasia (MDS) (five refractory anaemia, RA; one RA with ringed sideroblasts, RARS; three chronic myelomonocytic
leukaemia
, CMML; four RA with excess of blasts,
RAEB
; five
RAEB
in transformation,
RAEB
-t) was studied by X-chromosome inactivation analysis. Using the human androgen-receptor (HUMARA) assay, we analysed the clonal patterns of highly purified immature CD34+ 38- and committed CD34+ 38+ marrow-derived progenitors, and CD16+ 14- granulocytes, CD14+ monocytes, CD3+ T and CD19+ B lymphocytes from peripheral blood. In high-risk patients (
RAEB
,
RAEB
-t), clonality analysis was performed before and after intensive remission-induction treatment. All patients, except one with RA, had predominance of a single clone in their granulocytes and monocytes. The same clonal pattern was found in CD34+ progenitor cells. In contrast, CD3+ T lymphocytes were polyclonal or oligoclonal in 14/18 patients. X-chromosome inactivation patterns of CD19+ B cells were highly concordant with CD3+ T cells except for two patients (one RA, one CMML) with monoclonal B and polyclonal T lymphocytes, therefore suggesting a clonal mutation in a progenitor common to the myeloid and B-lymphoid lineages or the coexistence of MDS and a B-cell disorder in these particular patients. After high-dose non-myeloablative chemotherapy, polyclonal haemopoiesis was reinstalled in the mature myeloid cells and immature and committed marrow progenitors in three of four patients achieving complete haematological remission. Therefore we conclude that most haematological remissions in MDS are associated with restoration of polyclonal haemopoiesis.
...
PMID:Patients with high-risk myelodysplastic syndrome can have polyclonal or clonal haemopoiesis in complete haematological remission. 969 63
Pancytopenia is a frequent manifestation of myelodysplastic syndromes (MDS). In the presence of an empty bone marrow, clinical distinction from aplastic anemia may be difficult. The hypoplastic marrow morphology seen in some cases of MDS raises questions about etiologic and pathophysiologic relationships between aplastic anemia and MDS. The goal of our study was to compare the degree of the hematopoietic failure in these diseases at the level of the most immature progenitor and stem cells that can be measured in vitro. In a systemic, prospective fashion, we have studied bone marrow (n = 45) and peripheral blood (n = 33) of patients with MDS for the number of long-term culture initiating cells (LTC-IC) in comparison to 17 normal controls and patients with new, untreated aplastic anemia (46 marrow; 62 blood samples). Due to the low numbers of cells available for the analysis, formal limiting dilution analysis could not be performed, instead secondary colony-forming cells (CFC) after 5 weeks of LTBMC were measured. As the number of these cells is proportional to the input number of LTC-IC, the number of secondary CFC per 10(6) mononuclear cells (MNC) initiating the LTBMC can be used as a measure of the content of immature stem cells in bone marrow and peripheral blood. The MDS group consisted of 34 RA, three RARS, eight
RAEB
and two RAEB-T patients with mean absolute neutrophil values of 1992, 1413, 1441, and 380 per mm3, respectively. The diagnosis was established based on bone marrow morphology and results of cytogenetic studies. In comparison to controls (147 +/- 38/10(6) MNC), significantly decreased numbers of bone marrow secondary CFC were found in MDS: in patients with RA and RARS, 21 +/- 7 secondary CFC per 10(6) bone marrow MNC (P < 0.001); patients with
RAEB
and RAEB-T: 39 +/- 12 CFC per 10(6) marrow MNC (P < 0.001). In all groups tested, the decrease in peripheral blood secondary CFC numbers was consistently less pronounced. In MDS patients with hypocellular bone marrow, secondary CFC were lower but not significantly different in comparison to MDS with hypercellular marrow (18 +/- 6 vs 35 +/- 11; NS; hypoplastic bone marrow also was not associated with significantly lower neutrophil counts). However, in 24% of patients with MDS, bone marrow secondary CFC were within the normal range, while in the aplastic anemia group only one of the patients showed secondary CFC number within normal range. Bone marrow and blood secondary CFC numbers in hypoplastic RA were significantly higher than those in severe aplastic anemia 919 +/- 5 in bone marrow, P < 0.01; 7 +/- 2 in blood, P < 0.05). This trend was even more pronounced in hypoplastic RA with chromosomal abnormalities. However, no significant differences were found between the secondary CFC numbers in hypoplastic RA and moderate aplastic anemia. We concluded that, although the deficiency in the stem cell compartment is less severe in MDS than in aplastic anemia, depletion of early hematopoietic cells is an essential part of the pathophysiology in both diseases.
Leukemia
1998 Aug
PMID:Measurement of secondary colony formation after 5 weeks in long-term cultures in patients with myelodysplastic syndrome. 969 72
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