UMLS:C0023467 - FACTA Search

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Query: UMLS:C0023467 (acute myeloid leukemia)
35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thirty cases of newly diagnosed pediatric acute myeloblastic leukemia (AML) with French-American-British (FAB) M2 morphology were analyzed with cytogenetics and a comprehensive panel of monoclonal antibodies reactive with lymphoid-, natural killer (NK)-cell-, and myeloid-associated antigens. The t(8;21)(q22;q22), or t(8;21;V)(q22;q22;V), translocation was identified in 16 of the 30 cases. Cases with the t(8;21) did not differ significantly from the remaining M2 cases with respect to expression of CD11b, CD13, CD14, CD15, CD33, CD34, CD36, CD41a, CD42b, CDw65, TdT, or HLA-DR. Expression of the B-cell antigen CD19 was detected in 13 of the 16 t(8;21) cases (81%), but in only 1 of the 14 (7%) other M2 cases (P = .00006). Expression of the CD56 NK-cell antigen was also significantly more frequent among t(8;21) cases (63% v 14%; P = .01). Coexpression of CD19 and CD56 was found only in the t(8;21) group (9 of 16 cases, P = .0009). Furthermore, this phenotype was not found in 48 evaluable cases of de novo AML of the FAB M1, M3, M4, M5, or M7 subtypes. The 14 M2 AML cases lacking the t(8;21) commonly expressed CD2 (n = 5) or CD7 (n = 8). However, no case with the t(8;21) expressed either antigen (P = .01 and .0005, respectively). Thus, the t(8;21) biologic subgroup of pediatric M2 AML has distinct immunophenotypic characteristics that distinguish it from other types of de novo AML.
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PMID:Distinctive immunophenotypic features of t(8;21)(q22;q22) acute myeloblastic leukemia in children. 846 84

Leukaemia is rare in infancy with an equal predominance of lymphoblastic and myeloblastic cases. Acute lymphoblastic leukaemia in infants under one year is characterised by a high leucocyte count, organomegaly, early B-cell phenotype, sometimes with evidence of monocytoid differentiation and cytogenetic abnormalities. This is reflected in its poor prognosis. The toddler (aged 1-2) tends to develop typical childhood ALL which is responsive to treatment, but remains vulnerable to late effects of therapy, particularly radiation. The distribution of subtypes of AML differs in the younger and older child and results of treatment have improved in all age groups. A uniform strategy appears desirable for all cases of childhood AML. It seems probable that different genetic and environmental factors may be involved in the genesis of infant ALL, childhood ALL and AML in children. The management of leukaemia in children under two poses a considerable challenge.
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PMID:Leukaemia in the young child. 150 27

Study AML-BFM-87 compared prospectively if cranial irradiation could be abandoned by adding two blocks of intensification with high dose ARA-C and VP-16 after consolidation and furthermore, improve prognosis compared to study -83. 210 children were enrolled in study AML-BFM-87 until March 31, 1991. 164 (78%) achieved complete remission. Probabilities for event-free survival (EFS) and event-free interval (EFI) of 5 years were: .45 (SD .04) and .57 (SD .05). In the first 2.5 years of the study irradiation was randomized (n = 31), selected or refused (n = 24). However, during this period irradiation was mandatory in patients with leukocyte count greater than 70,000/mm3, and also in children with initial CNS involvement. Since July 1989 prophylactic cranial irradiation was abandoned. Patients of the group with mandatory irradiation (n = 39) presented with more unfavourable risk parameters than the group of non-irradiated children, who were enrolled in the study after randomisation had been stopped. Nevertheless, results showed in randomized and selected patient groups as well as in the total cohort a longer relapse-free interval (RFI) in irradiated (n = 66) compared to non-irradiated (n = 94) patients (RFI of 5 years: .70, SD .04 vs. .51, SD .07, p less than .05). Relapses in non-irradiated children occurred mainly in the bone marrow and less often in the CNS. The increase in relapse rate was seen especially in non-irradiated patients of the low risk group as defined in study AML-BFM-83 (RFI: .40, SD .14 vs. .79, SD .09 with irradiation, p less than .01). In the high risk group, however, the differences were not significant. Our results suggest that cranial irradiation is an important part of therapy in childhood AML, and that the good prognosis of the low risk group in study AML-BFM-83 was probably based on the combination of intensive chemotherapy and cranial irradiation.
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PMID:[Effect of cranial irradiation on rate of recurrence in children with acute myeloid leukemia. Initial results of the AML-BFM-87 study. The AML-BFM Study Group]. 151 59

The prognostic significance of cell surface antigens associated with lymphoid and myeloid lineage differentiation on the blasts of children with acute myeloid leukemia (AML) was evaluated. Leukemic blasts from 176 patients enrolled on Childrens Cancer Study Group Protocol 213 determined to have AML by standard morphologic and cytochemical criteria were immunophenotyped. Cell surface antigens associated with myeloid differentiation were found on blasts from 88.1% of patients (CD15, 44%; CD33, 65%; CD36, 53%; glycoprotein Ib, 9.3%). However, blasts from 30.7% of patients expressed surface antigens thought to be specific for lymphoid lineage differentiation (CD2, 9.4%; CD5, 2.7%; CD19, 34.5%; CD20, 0.8%). In addition, CD34, a glycoprotein found on immature cells of both myeloid and lymphoid lineages, was expressed on the blast cells of 48.2% of patients. With the exception of the lymphoid lineage nonspecific antigen CD4, no correlation was found between white blood cell count at diagnosis, age, and French-American-British morphology, and the expression of any of the lymphoid- or myeloid-associated cell surface antigens studied. Nor was the expression of these antigens prognostically significant with respect to response to induction therapy, death during induction, survival, event-free survival, or survival/event-free survival following remission induction. Multivariate analysis showed that CD4 expression was not an independent predictor of outcome. Thus, this prospective study suggests that expression of lymphoid-associated cell surface antigens as well as myeloid-associated antigens by childhood AML blasts lacks prognostic significance.
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PMID:Expression of lymphoid-associated cell surface antigens by childhood acute myeloid leukemia cells lacks prognostic significance. 157 53

Acute myelogenous leukemia (AML) represents a heterogenous group of leukemias in adults as well as in children. The BFM group initiated 3 consecutive studies on the treatment of this disease. Between December 1978 and April 1991, 543 children under the age of 17 years entered the 3 consecutive multicenter studies, AML-BFM-78 (n = 151), AML-BFM-83 (n = 182), and the still ongoing study AML-BFM-87 (n = 210). The treatment strategy of BFM-78 consisted of an eight week induction/-consolidation regimen employing 7 different drugs together with cranial irradiation, followed by continuous maintenance for two years. The main alteration in the second study BFM-83 was the addition of an intensive 8-day ADE induction course (cytosine arabinoside, daunorubicin, etoposide). In the ongoing trial BFM-87 two courses of HD-ARA-C and etoposide are given after consolidation. CR rates were 80% in trials I and II, and 78% in trial III. The probability of a 4.5-year event-free survival was 35%, SD 4% in study I; 49%, SD 4% in study II, and 45%, SD 4% in study III. The probability of a 4.5-year event-free interval (EFI) was increased from 45%, SD 5% in study I to 61%, SD 4% in study II, it is in the same range in study III (58%, SD 5%). Seven of 10 children which underwent bone marrow transplantation (BMT) in 1. CR are still in first CR after a maximum follow-up time of 3.5 yrs. In summary, the addition of HD-ARA-C together with etoposide given after induction/consolidation treatment did not further reduce the incidence of relapses in childhood AML. So far, the results of study BFM-87 are in the same range than those of study BFM-83.
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PMID:Treatment results of three consecutive German childhood AML trials: BFM-78, -83, and -87. AML-BFM-Group. 157 43

The t(9;11)(p21;q23) has been associated with characteristic clinical features and a superior treatment outcome in previously untreated pediatric acute myeloblastic leukemia (AML), but has not been well studied in children with secondary AML. This translocation was detected in 6.7% of de novo and 46% of secondary AML patients treated at St Jude Children's Research Hospital over an 11-year period. Clinical, immunophenotypic, and morphologic characteristics were examined for the cases of t(9;11) secondary AML (n = 12) and compared with findings for children with t(9;11) de novo AML (n = 12). Patients with t(9;11) secondary AML were older at diagnosis, had higher hemoglobin levels, and central nervous system leukemia or hepatosplenomegaly was less frequent. These differences probably reflect survival of the first malignancy and close clinical scrutiny during post-treatment follow-up. Whereas the t(9;11)(p21;q23) occurred exclusively in the French-American-British (FAB) M5 subtype in de novo AML, the FAB M0 and M4 subtypes were also represented in secondary cases. The complete remission rate was somewhat higher for the de novo AML group (91 vs 58%; p = 0.16); their event-free survival was clearly superior to that for children with t(9;11) secondary AML (p = 0.003). Host differences related to the previous malignancy or its treatment could explain the poorer clinical outcome for patients with t(9;11) secondary AML. Alternatively, there could be critical differences at the translocation site or additional, hidden molecular events, that explain the different outcomes.
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PMID:Translocation t(9;11)(p21;q23) in pediatric de novo and secondary acute myeloblastic leukemia. 160 90

In June 1984, the Pediatric Oncology Group (POG) initiated a pilot study (8498) using high-dose cytarabine (HdA; 3 g/m2) for intensification of early therapy in childhood acute myelogenous leukemia (AML) (group I). Remission induction therapy consisted of two courses of daunorubicin, cytarabine (Ara-C), and thioguanine (DAT). Postremission therapy consisted of four sequential courses, each consisting of (1) four doses of HdA (HdA4) followed by asparaginase (L-Asp), (2) etoposide (VP) plus azacytidine (Az), (3) prednisone, vincristine, methotrexate, and mercaptopurine (POMP), and (4) Ara-C daily for 5 days by continuous infusion. Six doses of intrathecal Ara-C were given for CNS prophylaxis. In December 1986, the protocol was amended (group II) to substitute six doses of HdA (HdA6) for the second DAT (two + five) induction course; postinduction, a single course of HdA6 was given instead of four HdA/L-Asp courses, and the remainder of the therapy was unchanged. One hundred forty group I patients and 145 group II patients were assessable. The two groups were similar with regard to clinical prognostic groups. No significant differences were noted in the two groups with regard to remission induction (85% [SE = 2%] in each group), induction deaths (6.5% v 7.0%), or deaths in remission (one in each group). Cerebellar toxicity was reported in three patients in group II (with HdA6) but none in group I (HdA4). At present, patients who received HdA6 (group II) had higher event-free survival than patients in group I (EFS at 3 years, 34% [SE = 11%] v 29% [SE = 4%]), and disease-free survival (DFS at 3 years, 42% [SE = 14%] v 34% [SE = 4%]), but the differences were not statistically significant. In both groups, children less than 2 years and those with WBCs less than 100,000/microL had significantly better outcome (EFS of 55% [SE = 10%] and 36% [SE = 5%] at 3 years, respectively) than children greater than or equal to 2 years and those with WBCs greater than or equal to 100,000/microL (EFS of 27% [SE = 5%] and 20% [SE = 9%] at 3 years, respectively.
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PMID:High-dose cytarabine for intensification of early therapy of childhood acute myeloid leukemia: a Pediatric Oncology Group study. 206 54

The frequency and clinical significance of the pseudo-Chediak-Higashi (PCH) anomaly were studied in 20 children with acute myeloid leukemia (AML) M2 in the FAB nomenclature. PCH granules were recognized as giant eosinophilic granules, measuring up to 5 microns, in the cytoplasm of leukemic cells on smears. At the electron microscope level, most PCH granules were round to oval and outlined by a limiting membrane, and contained homogeneous, granular, crystalloid, rod-like or myelin-like materials. The PCH anomaly was demonstrable in five (25.0%) of the 20 patients, which indicates that the anomaly is not rare in childhood AML M2. There were no differences between PCH anomaly-positive and PCH anomaly-negative groups with regard to hepatosplenomegaly, hemoglobin levels, white blood cell counts, bone marrow cellularity, t(8q-, 21q+) chromosome abnormalities or prognoses. Circulating leukemic cells were observed less frequently in the PCH anomaly-positive group than in the PCH anomaly-negative group (p less than 0.05); the leukemic cells were not demonstrable in three of the five patients in the former group, although they were detected in all 15 patients in the latter group. The existence of PCH granules and/or a defect of the cytoskeleton responsible for the PCH anomaly in leukemic cells may impede their movement from the bone marrow to the peripheral blood.
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PMID:Pseudo-Chediak-Higashi anomaly in acute myeloid leukemia (M2) of childhood. 208 66

The main difference between the two cooperative studies on therapy of childhood acute myelogenous leukemia AML-BFM-78 and AML-BFM-83 was the addition of an 8-day ADE (cytosine arabinoside, daunorubicin, etoposide) induction treatment in the second study. Due to this intensification, the relapse rate, but not the rate of induction failures, was reduced. The probability of a 6-year event-free survival increased from 38%, SD 4%, in study AML-BFM-78 to 49%, SD 4%, in study AML-BFM-83, P = .08. The improvement of the 6-year event-free interval (EFI) was significant in the second study (61%, SD 4%, versus 47%, SD 5%, P less than .05); it was restricted to the FAB types M1 through M4 (EFI: 67%, SD 5%, versus 45%, SD 5%, P less than .01). The difference in EFI seen in FAB M5 was not statistically significant (EFI: 40%, SD 10%, versus 63%, SD 11%, NS). According to the results of the second study, two different risk groups (low and high) could be identified by combinations of predominantly pretherapeutic parameters. The low risk group, comprising 37% of the patients who achieved complete remission, included the FAB types with granulocytic differentiation and specific additional features: FAB M1 with Auer rods, FAB M2 with white blood cell count of less than 20,000/microL, FAB M3 all patients, and FAB M4 with eosinophilia. The 6-year Kaplan-Meier estimation of EFI is 91%, SD 4%, compared with 42%, SD 6% in the high risk group. In future studies based on the AML-BFM-83 treatment, bone marrow transplantation in first remission should be mandatory only for children of the high risk group.
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PMID:Identification of two risk groups in childhood acute myelogenous leukemia after therapy intensification in study AML-BFM-83 as compared with study AML-BFM-78. AML-BFM Study Group. 218 19

Mutations at codon 12, 13, and 61 of the HRAS, KRAS, and NRAS genes were evaluated in 99 cases of pediatric acute myeloid leukemia (AML) using oligonucleotide hybridization to polymerase chain reacted derived products. Twenty-four mutations were identified in the NRAS gene, 13 in the KRAS gene, and none in the HRAS gene. The mutations occurred in a broad spectrum of cases, and there was no specific association of RAS gene mutations with patient subsets defined on the basis of clinical or hematologic features. These data demonstrate that RAS gene mutations are at least as common in childhood AML as in adult AML and suggest that RAS gene mutations play a role in myeloid neoplasia in both age groups.
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PMID:RAS gene mutations in childhood acute myeloid leukemia: a Pediatric Oncology Group study. 227 70

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