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Query: UMLS:C0023467 (
acute myeloid leukemia
)
35,200
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Using literature data on cytogenetic abnormalities in 3,612 cases of
acute myeloid leukemia
(
AML
) and 1,551-cases of acute lymphocytic leukemia (ALL), we have attempted to quantify the information value of finding the typical ALL- and
AML
-associated chromosome aberrations. Sensitivity, specificity, and predictive value of finding or not finding a given aberration were calculated for several diagnostic scenarios: for the differential diagnosis between ALL and
AML
when the patient is known to have acute leukemia, for the differential diagnosis among
AML
FAB subtypes in a patient with known
AML
, and for the differential diagnosis between ALL FAB subtypes in a patient with known ALL. The specificities were generally high, close to 1. The highest sensitivities in
AML
were found for +8, t(15;17)(q22;q11), t(8;21)(q22;q22), and -7 (all greater than 0.1), and in ALL for t(9;22)(q34;q11), t(4;11)(q21;q23), and +21 (again all greater than 0.1). In the
AML
subtypes, the highest sensitivities were 0.89 for t(15;17)(q22;q11) in M3, followed by 0.40 for t(8;21)(q22;q22) in M2, 0.30 for inv(16)(p13q22)/del(16)(q22)/t(16;16)(
p13
;q22) in M4, and 0.16 for t(9;11)(p21;q23) in M5. In the ALL subtypes, the highest sensitivities were 0.71 and 0.11 for t(8;14)(q24;q32) and t(8;22)(q24;q11), respectively, in L3, 0.23 for t(9;22)(q34;q11) in L2, and 0.18 and 0.13 for +21 and t(4;11)(q21;q23), respectively, in L1. The highest (1.0) positive predictive values in the
AML
versus ALL comparison were found for t(1;3)(p36;q21), inv(3)(q21q26), t(6;9)(p23;q34), t(7;11)(p15;p15), t(8;16)(p11;
p13
), t(8;21)(q22;q22), t(15;17)(q22;q11), and, as sole anomalies, for +4, +9, and +11. In the reverse comparison, ALL versus
AML
, positive predictive values of 1.0 were found for t(1;14)(p32-34;q11), dup(I)(q12-21q31-32), t(2;8)(p12;q24), t(8;14)(q24;q32), t/dic(9;12)(p11-12;p11-13), t(10;14)(q24;q11), and t(11;14)(
p13
;q11). Among the
AML
subgroups, the highest predictive values were: 1.0 for M3 if t(15;17), 0.91 for M2 if t(8;21), 0.86 for M4 if inv/del(16)/t(16;16), and 0.82 for M5 if t(9;11). Among the ALL subtypes, positive predictive values of greater than 0.8 were reached only for the L3-associated aberrations t(2;8) (1.0), t(8;14) (0.95), t(8;22) (0.87), and dup(I) (0.80). The highest negative predictive values were in
AML
0.98 that the disease is not M3 if t(15;17) is not found, and in ALL 0.96 that the patient does not have L3 if a t(8;14) is not detected.
...
PMID:Quantitative acute leukemia cytogenetics. 138 63
Six cases of
acute myeloid leukemia
(
AML
) with translocations involving 12p are described. The patients were one child age 7 yrs and five adults with an age range of 20-66 yrs (median 46 yrs). In two patients
AML
followed treatment for acute lymphoblastic leukemia (ALL), in one case after 11 years disease-free survival. Of the remaining four patients, two had been occupationally exposed to possible mutagens and three had a previous myelodysplastic phase. Two patients achieved complete remission; survival for the six cases was between 1 and 24 months (median 6.5 months). The breakpoints in 12p occurred in p11, p12, and
p13
, indicating that several sites are important in these rearrangements, and it is suggested that t(12;17)(p11;q11) is a new nonrandom abnormality in
AML
.
...
PMID:Translocations involving 12p in acute myeloid leukemia: association with prior myelodysplasia and exposure to mutagenic agents. United Kingdom Cancer Cytogenetics Group (UKCCG). 138 79
Fifteen cases of acute lymphoblastic leukemia (ALL) with translocations involving 9p and/or 12p are described. Four children, three males and one female, age range 1-8 yrs, had translocations involving 9p but not 12p. Of these, three had B-lineage ALL and one had biphenotypic T-ALL/
acute myeloid leukemia
. Six patients, three males and three females, age range 1-49 yrs, had translocations involving 12p but not 9p. Five had B-lineage ALL and one had T-ALL. One patient had dic(7;12)(p11;p11), confirming that this previously reported translocation is nonrandom in ALL. One patient had t(2;12)(q14;
p13
), and it is suggested that this may also be a new nonrandom abnormality. Five patients, four males and one female, age range 11-21 yrs, had common ALL and dic(9;12). The dic(9;12) appears to confer a better prognosis than do other translocations involving 9p or 12p.
...
PMID:Translocations involving 9p and/or 12p in acute lymphoblastic leukemia. United Kingdom Cancer Cytogenetics Group (UKCCG). 138 80
The standard methods for classifying acute leukaemias now include morphology, cytochemistry and membrane markers. Major advances in immunology, in particular the development of monoclonal antibodies (McAb) with lineage specificity, have provided objective positive criteria for the diagnosis of acute lymphoblastic leukaemia (ALL). The FAB group has recognised the importance of McAb for the classification of some forms of
acute myeloid leukaemia
(
AML
), such as megakaryoblastic leukaemia,
AML
-M7, in which reactivity with McAb against platelet glycoproteins is a requirement for diagnosis. More recently the group has defined a type of myeloblastic leukaemia with minimal differentiation,
AML
-MO, in which myeloid cytochemistry is negative and the diagnosis is made by the expression of myeloid antigens and negative lymphoid markers in the blast cells. However, new problems have emerged with the wider use of McAb which now need to be addressed: the most important is the precise evaluation criteria for biphenotypic leukaemia for which we have proposed a scoring system in order to recognise the genuine cases which constitute a distinct disease entity. The role of karyotyping in the classification of acute leukaemia is gradually being defined (MIC proposals) and some forms of acute leukaemia can only be diagnosed by chromosome translocations, e.g. Ph+ ALL, resulting from t(9;22) and t(4;11) in infant ALL. Several translocations can also be demonstrated by molecular techniques. Cases with t(8;16) (p11;
p13
) are characterised by myelomonocytic features, erythrophagocytosis and fibrinolysis and represent a type of
AML
which can be defined primarily by its cytogenetic abnormality.
...
PMID:The classification of acute leukaemia. 157 5
We present the nonrandom occurrence, frequency, and degree of immunophenotype association of the t(1;22)(
p13
;q13) in children with
acute nonlymphocytic leukemia
(
ANLL
). This karyotype anomaly occurred in leukemia cells from five of 445 (1.1%) children with newly diagnosed
ANLL
who were successfully studied by cytogenetic analysis at four European centers between January 1987 and January 1992. The occurrence of the t(1;22) was restricted to the French-American-British classification (FAB) subtype M7. The overall incidence in children with acute megakaryocytic leukemia (AMKL) was 27.8% (5/18 cases); in infants with AMKL, the frequency of the t(1;22) was 66.7% (4/6 cases). Three of the patients carrying this anomaly had a diploid karyotype, whereas in two cases a hyperdiploid karyotype was found. However, in all five patients, the t(1;22) was the only translocation event present at diagnosis. All patients received aggressive chemotherapy for
acute myelogenous leukemia
(
AML
). Two patients died within 15 months of diagnosis without entering remission. One of three patients who entered remission died 7 months after diagnosis, most likely from intramedullar hemorrhage. Only two of the five children with the t(1;22) who received autologous bone marrow transplantation (BMT) are alive and in complete remission (CR) 23 and 40 months after diagnosis, respectively. At the time of diagnosis, the age of the oldest child carrying the t(1;22) was 18 months. The cases with this chromosome anomaly were compared with an age-matched group of five children with AMKL lacking this translocation. The patients with the t(1;22) had a lower median value of the peripheral white blood cell (WBC) count and a higher median hemoglobin level than the patients from the matched group. In the latter cases, normocellular or hypercellular bone marrow (BM) was detected at diagnosis. In contrast, all children with the t(1;22) in our series had a hypocellular BM. Histological BM analyses were available in three of these patients and showed marked fibrosis. Other clinical and laboratory parameters showed no obvious differences between the matched groups. Despite intensive chemotherapy, AMKL in children appears to be associated with a poor prognosis. The clinical courses of the children with AMKL and the t(1;22) presented may be indicative of a beneficial effect of autologous BMT in this subset of patients.
...
PMID:The translocation t(1;22)(p13;q13) is a nonrandom marker specifically associated with acute megakaryocytic leukemia in young children. 159 73
A 57-year-old female presented with general fatigue. She had neither lymphadenopathy nor hepatosplenomegaly. Laboratory data revealed anemia and leukopenia (1,500/microliters) with a differential count of 4.5% leukemic cells. The myelogram revealed 34.4% leukemic cells, of which diameter ranged from 20 to 28 microns. The diagnosis was
acute myelogenous leukemia
(FAB: M2) with myelodysplasia. Cytogenetic analysis revealed that the leukemic cells had chromosome abnormalities involving both diploidy and tetraploidy with structural rearrangement. Structural rearrangement included del(5) (q22q33), del(15) (q22q24), and t(3; 12) (q25;
p13
). Small dose aclacinomycin-A treatment was effective in reducing the number of leukemic cells in bone marrow, and both anemia and leukocytopenia were improved.
...
PMID:[Acute myelogenous leukemia transformed from myelodysplastic syndrome with tetraploid chromosome constitution]. 160 14
Human chromosome 16-specific low-abundance repetitive (CH16LAR) DNA sequences have been identified during the course of constructing a physical map of this chromosome. At least three CH16LAR sequences exist and they are interspersed, in small clusters, over four regions that constitute more than 5% of the chromosome. CH16LAR sequences were observed in one unusually large cosmid contig (number 55), where the ordering of clones was difficult because these sequences led to false overlaps between noncontiguous clones. Contig 55 contains 78 clones, or approximately 2% of all the clones contained within the present cosmid contig physical map. Fluorescent in situ hybridization of multiple clones, including cosmid and YAC contig 55 clones, mapped the four CH16LAR-rich regions to bands
p13
, p12, p11, and q22. These regions are of biological interest since the pericentric inversion and the interhomologue translocation breakpoints commonly found in
acute nonlymphocytic leukemia
(
ANLL
) subtype M4 fall within these bands. Sequence analysis of a 2.2-kb HindIII fragment from a cosmid containing a CH16LAR sequence indicated that one of the CH16LAR elements is similar to a minisatellite sequence in that the core repeat is only 40 bp in length. Additional characterization of other repetitive elements is in progress.
...
PMID:Chromosome 16-specific repetitive DNA sequences that map to chromosomal regions known to undergo breakage/rearrangement in leukemia cells. 161 92
An increasing number of acute leukemias coexpressed markers normally believed to be restricted to a single lineage have been found recently. This special subgroup of leukemias have drawn a lot of attention because of their biologic and clinical significance. In a study of 100 consecutive de novo
ANLL
patients diagnosed by FAB criteria, T-cell antigen CD7 was identified on the leukemic blasts of 13 patients, ten of whom had M1 subtype of leukemia, myeloblastic leukemia without maturation. All the patients showed positive staining with myeloperoxidase and expressed myeloid markers CD13 and/or CD33, but lacked CD11b, a marker of more mature myeloid cells. Combined staining with myeloperoxidase and CD7 of the cells from four patients revealed coexpression of both markers on the same cells. None of the patients expressed the two other T-cell antigens CD2 or CD5. All ten patients who had DNA analysis showed germline configuration of TCR beta and gamma chain genes. One patient had chromosomal translocation involving 11q23, t(11; 19) (q23;
p13
), which is the site frequently associated with both myeloid and lymphoid malignancies. The clinical implications of this subgroup of patients need further study on more patients, and need longer follow-up.
...
PMID:A subset of acute nonlymphocytic leukemia with expression of surface antigen CD7--morphologic, cytochemical, immunocytochemical and T cell receptor gene analysis on 13 patients. 169 99
Chromosome studies were carried out after a 24-hour harvest of unstimulated bone marrow aspirate cell cultures from a 75-year-old male with a clinical diagnosis of acute myelomonocytic leukemia (FAB M4). Analysis of nine cells after trypsin-Giemsa banding (GTG) revealed two cell lines with a mosaic chromosome pattern, 46,XY/46,XY,t(7;19)(q22;
p13
.3). A review of the recent literature reveals one case of childhood ALL with a 46,XY/46,XY,t(7;19)(q11;q13) chromosome pattern [1] and a 46,XY,t(3q;11q),t(7q;19p),t(15;17)(q26;q22) in one patient with
ANLL
(FAB M3) [2]. The t(7;19)(q22;
p13
.3) seen in our case has not been reported as the sole specific clonal chromosome rearrangement in myeloid neoplasia. Interestingly, the plasminogen activator inhibitor type I, multi-drug resistance, and erythropoietin genes are located at band 7q22 and the insulin receptor gene is located at band 19p13.3. Both sites contain fragile site loci. The possible role of these fragile sites, genes, or other genes in the rearrangement can only be surmised.
...
PMID:Atypical (7;19) translocation in acute myelomonocytic leukemia. 175 94
From 583 cases of acute lymphoblastic leukemia (ALL) and 181 cases of
acute myeloid leukemia
(
AML
) in childhood, seven patients were identified to have t(11;19) (q23;
p13
) by sequential cytogenetic analyses. The t(11;19) was associated with B-precursor ALL at diagnosis in three patients and at relapse in one patient. All four tested patients with B-precursor failed to express the CD10 antigen when the t(11;19) was detected, and one of three patients tested expressed myeloid-associated markers. In three other patients the translocation was detected either at lineage conversion from ALL to M5
AML
(n = 2) or from
AML
to CD10- B-precursor ALL (n = 1). Leukemic blasts of four patients had an entirely different karyotype at the time of lineage conversion or loss of CD10 expression, suggesting an induction of a second neoplasm. Thus the t(11;19) can be found in de novo or secondary acute leukemia with lymphoid (CD10-) or myeloid (monoblastic) phenotype. Further investigation of the gene(s) involved in the 11q23 chromosomal region and the breakpoints in the 19p13 region is needed to understand the leukemogenesis of this apparently heterogeneous group of disorders.
...
PMID:Childhood acute leukemia with t(11;19) (q23;p13). 177 55
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