PF280 INTENSIVE TREATMENT OF ELDERLY AML PATIENTS IS SAFE AND FEASIBLE, PRINCESS MARGARET CANCER CENTRE EXPERIENCE

Background: Acute myeloid leukemia (AML) is a clinically and biologically heterogeneous disease. The incidence of AML increases with age, with the median age at diagnosis currently 67 years. The outcome in older patients is worse than for younger patients, which relates to patient, disease characteristics and possibly changes in drug dosing. Treatment represents a challenge as there is variability in which of these patients will be offered curative intent therapy. Aims: To describe the clinical outcomes in older adults with acute myeloid leukemia treated with induction chemotherapy. Methods: A retrospective review was performed on all patients with a new diagnosis of AML defined by ≥20% blasts in peripheral blood or bone marrow (acute promyelocytic leukemia and myeloid sarcoma excluded), treated intensively at Princess Margaret Cancer Centre between February 2015 and August 2017. Statistical analysis with Kaplan‐Meier product‐limit method, Log‐rank test and Cox regression model were performed using version 9.4 of the SAS system for Windows (2002–2012 SAS Institute, Inc., Cary, NC). Results: We identified 283 patients with a new diagnosis of AML for whom induction chemotherapy was used as the frontline approach. Of these, 136 (48%) were ≥60 years (range 60–82). Demographic and clinical data of both age groups were well balanced. The median age at presentation for the younger cohort was 50 yrs (range 18–59) while for the older group was 68 yrs (range 60–82). Poor risk cytogenetics by MRC classification was more frequently seen in the younger population compared to the older group (27% vs 17%, P  = 0.030). Type of induction chemotherapy was evenly distributed between the two groups. In total, 216 patients had a beneficial response (CR/CRi/morphologic leukemia free state) with no differences between the younger and older age groups (76% vs 77%, P = 0.73). There was no significant difference in early death between young (3%) and older population (5%) ( P  = 0.339). In the Univariate Cox regression model comparing the two groups, MRC Cytogenetics ( P  < 0.0001), type of induction chemotherapy ( P   =  0.0079), post induction response ( P  < 0.0001), white blood cell count ( P  < 0.0001), lactate dehydrogenase ( P   =  0.0015) and creatinine ( P   =  0.03) were predictive of a shorter survival. Neither the type of diagnosis or ECOG retained prognostic value. In the multivariate analysis only post induction response remained statistically significant for length of survival ( P  < 0.0001). With a median follow‐up of 13 months, older patients had a shorter OS (21.0 months) vs 31.6 months in the younger group ( P  = 0.0121), Figure 1. The older population was subsequently subclassified into 2 different age groups, 60–69 yrs, 70–79 yrs (1 patient ≥ 80 was identified and excluded from analysis) to further investigate the effect of increasing age on outcomes. Survival for the 60–69 yrs and 70–79 yrs was 22.0 and 17.2 months respectively ( P  = 0.473) Figure 2Summary/Conclusion: This study shows that those older patients undergoing intensive chemotherapy have similar response rates and treatment related mortality compared to their younger colleagues. Furthermore, patients in the 70–79 group had similar median OS compared to their younger counterparts (60–69 yrs). Despite a greater proportion of younger patients having poorer risk disease, the older group had a worse OS suggesting that other disease and patient related factors are important. Transplant‐Molecular data using a 54 myeloid gene panel will also be presented at EHA.