Ann-Sofi Hörstedt scite author profile

The Swedish population-based acute myeloid leukemia registry contains data from 3251 patients (excluding acute promyelocytic leukemia) diagnosed between 1997 and 2006. Informative cytogenetic data from 1893 patients were retrospectively added, including 1054 patients aged between 60 and 79 years. Clonal abnormalities were found in 57% of the informative karyotypes. Karyotypic patterns differed by age: t(8;21), inv(16) and t(11q23) were more common in younger patients, whereas loss of 5q, 7q and 17p, monosomal karyotype (MK) and complex karyotypes were more common in older patients. Loss of 5q, 7q and 17p often occurred together within MK. Patients with ⩾5 chromosome abnormalities had worse overall survival than those with fewer abnormalities or normal karyotype in all age groups. Loss of 5q, 7q and/or 17p had, in contrast to MK, a further negative impact on survival. Multivariable Cox regression analyses on risk factors in patients <80 years with cytogenetic abnormalities and intensive treatment revealed that age and performance status had the most significant impact on survival (both P<0.001), followed by sex (P=0.0135) and a karyotype including −7/del(7q) (P=0.048).

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Failure matters: unsuccessful cytogenetics and unperformed cytogenetics are associated with a poor prognosis in a population‐based series of acute myeloid leukaemia

Lazarević

Hörstedt

Johansson

et al. 2014

European J of Haematology

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Unsuccessful cytogenetics (UC) in patients with acute myeloid leukaemia (AML) treated on different SWOG trials was recently reported to be associated with increased age and dismal outcome. To ascertain whether this holds true also in unselected patients with AML, we retrieved all cytogenetic reports in cases from the population-based Swedish AML Registry. Between 1997 and 2006, 1737 patients below 80 yr of age without myelosarcoma or acute promyelocytic leukaemia received intensive treatment. The frequencies of UC and unperformed cytogenetics (UPC) were 2.1% and 20%, respectively. The early death rates differed between the cytogenetic subgroups (P = 0.006) with the highest rates in patients with UC (14%) and UPC (12%) followed by high-risk (HR) AML, intermediate risk (IR) and standard risk (SR) cases successfully karyotyped (8.6%, 5.9%, and 5.8%, respectively). The complete remission rate was lower in UC and UPC and HR compared with the other risk groups (P < 0.001). The overall five-year survival rates were 25% for UC and 22% for UPC, whereas the corresponding frequencies for SR, IR and HR AML patients without UC and UPC were 64%, 31% and 15%, respectively. In conclusion, lack of cytogenetic data translates into a poor prognosis.

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Poor Outcome in Secondary Acute Myeloid Leukemia (AML): A First Report From the Population-Based Swedish Acute Leukemia Registry

Lehmann

Lazarević

Hörstedt

et al. 2012

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130 Secondary AML comprises AML patients with an antecedent hematological disorder (AHD) or previous exposure to chemotherapy and/or radiation (therapy-related AML; tAML). Population-based data on this patient group are scarce. Here, we report for the first time, data on secondary AML from the Swedish Acute Leukemia Registry covering 98% of all AML cases diagnosed in Sweden between 1997 and 2006. In total, 3372 AML patients were registered during this period. Of these, 949 (28%) had secondary AML; 655 (19%) had a history of AHD and 294 (8.7%) had tAML. The proportion of secondary AML increased from 8% in patients below the age of 40 years to 36% in patients between 70–79 years. Of patients with AHD, 423 (65%) had previously been diagnosed with myelodysplastic syndrome (MDS) and 227 (35%) with various types of myeloproliferative disorders (MPN). AML with AHD showed male predominance (57%), whereas tAML showed female predominance (64%). This distribution was significantly different (p<0.001) compared to de novo AML with an equal gender distribution. Median and mean ages for patients with AML with antecedent hematological disorder were 73 and 71 years, which differed significantly from de novo AML with 70 and 66 years, respectively (p<10−11). For tAML, median and mean ages were 71 and 67 years, respectively, not significantly different from de novo AML. Patients with secondary AML had slightly worse WHO/ECOG performance status (WHO PS) with lower incidence of WHO PS 0 (10%: 14%: 18% for AML with AHD:tAML:de novo AML) and a higher incidence of WHO PS 3–4 (27%: 24%: 20%). The proportion of patients with PS 1 and PS2 was similar for secondary AML and de novo AML. Intensive induction treatment was given to 45% of all patients with AHD, to 57% of patients with tAML compared to 68% for patients with de novo AML. In patients below the age of 65, the proportion of intensively treated patients was 76, 85 and 98%, respectively. CR rates for in patients including all ages were 40% for AML with AHD, 54% for tAML and 72 % for de novo AML (p-values<0.0001 for all calculations). CR rates were lower in all cytogenetic risk groups in both AML with AHD and tAML compared to de novo AML (Low risk NA: 70%: 91%; intermediate risk 53%: 56%: 89%; high risk 30%: 43%: 76%). CR rates were lower for both secondary leukemia types within all WHO PS groups, despite similar early death rates in secondary and de novo AML. Median survival for all patients regardless of age or type of treatment was 4 mo, 4 mo and 9 mo respectively for patients with AML with AHD, tAML and de novo AML, respectively. For all patients receiving intensive induction treatment, corresponding figures were 7 mo, 9 mo and 17 mo, and for patients below 65 years of age 7 mo, 9 mo and 38 mo. We conclude that secondary AML is less common in younger patients and that the proportion increases to a third of patients above 70. Patients with AHD and tAML less often receive intensive induction treatment than those with de novo AML and treatment responses are poor regardless of cytogenetic risk group or performance status also in intensively treated patients. Disclosures: No relevant conflicts of interest to declare.

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