Recruitment summary

Between December 2012 and April 2018, the ALLG NBCR registered 1022 patients (Fig. S1). Patients with acute promyelocytic leukemia (n = 62) were excluded from analyses. Another 18 patients were excluded because of a diagnosis other than AML, leaving a total of 942 patients in the final analysis cohort (Fig. S2). During this period, 11% of NBCR participants were also co-enrolled to an ALLG clinical trial, including the AMLM15 (n = 20; ACTRN12610000627055), AMLM16 (n = 81; ACTRN12611001112954) and AMLM21 (n = 1; ACTRN12614000810617) studies (Supplementary Information).

Data coverage and quality

Data quality for relevant data fields are summarized in Table S2. Baseline bone marrow morphology, flow cytometry and cytogenetic reports were available for most patients (>90%). Molecular pathology results for FLT3-ITD, NPM1, IDH1/2 and CEBPA were available in 82%, 69%, 20% and 14%, respectively. Details regarding first line treatment were available for approximately 90% of the population. Median follow up for surviving patients was 32 months (range <1 to 107 months). For deceased patients, cause of death was provided in 89% of instances.

Baseline characteristics

Patient demographic and disease characteristics are summarized in Table S3. The initial phase of the clinical registry focused on enrolment of patients fit for intensive chemotherapy (median age 57, range 16–80), received by 85% of patients, with allogeneic HCT performed in 21% of the study population. Low-intensity therapy (median age 75, range 54–92) and best supportive care (median age 75, range 57–88) were delivered to 9% and 4% patients in the registry, respectively. The entire study population had a slight male preponderance (55%). The median baseline white blood count (WBC) was 7.4 × 109/L, with 8% of patients presenting with hyperleukocytosis (WBC > 100 × 109/L). The proportion of patients diagnosed with de novo AML was 88%, whereas 12% of cases had AML with a prior history of cytotoxic therapy or radiotherapy (5.4%), myelodysplastic syndrome (MDS, 4.2%), chronic myelomonocytic leukemia (CMML, 1.8%) or myeloproliferative neoplasm (MPN, 0.7%). Cytogenetic data was available in 92% patients: with favorable, intermediate, adverse or unknown cytogenetic risk in 10%, 63%, 19% and 8%, respectively. Complex (≥3 abnormalities) and monosomal karyotype were present in 16% and 12% of patients. The commonest AML sub-groups were AML with myelodysplasia-related changes (AML-MRC; 28.3%) and AML not otherwise specified (28.0%). Mutations were detected in NPM1 (35%), FLT3-ITD (23%), IDH1 (14.5%), IDH2 (16.8%), CEBPA (6.7% biallelic) and FLT3-TKD (6%).

Registry-based outcomes for patients with FLT3 mutant AML aged 18–59 years prior to the introduction of midostaurin

Reimbursed midostaurin became available on the Australian Pharmaceutical Benefits Scheme (PBS) from December 2018, with approval based on the pivotal RATIFY trial in which 707 patients aged 18–59 years with newly diagnosed FLT3 mutation positive AML were randomized (between 2008 and 2011) to either midostaurin or placebo in combination with intensive induction and consolidation therapy. Addition of midostaurin improved 4-year OS (51% vs 44%), the primary endpoint of the study [2]. The 60-day complete remission (CR) rate was similar in the midostaurin and placebo arms (59% vs 54%).

In the ALLG NBCR cohort, 121 patients aged 18–59 years with newly diagnosed FLT3-ITD (allelic ratio ≥0.05; n = 103) and FLT3-TKD (n = 19; 1 had concurrent ITD) mutated AML treated with intensive chemotherapy without midostaurin were identified. The FLT3-ITD allelic ratio was <0.5, 0.5–0.7 and >0.7 in 43%, 16% and 24% of patients, respectively. FLT3-TKD was mutated in 20% of patients. Compared to the RATIFY study, patients in the ALLG NBCR were similar in terms of median age, gender distribution, FLT3-ITD allelic ratio and frequency of concurrent NPM1 mutation (Table 2). The major baseline difference was a higher median WBC at diagnosis in the ALLG NBCR cohort (42 × 109/L), compared to the RATIFY study population (33–36 × 109/L), and more patients had favorable cytogenetic risk (9% vs 5–6%). Induction in the ALLG NBCR cohort utilized idarubicin as the main anthracycline as part of a 7 + 3 (35%) or high-dose cytarabine-based (65%) induction regimen, with both induction approaches delivering similar OS outcomes in FLT3 mutated AML (Fig. 1A).

Table 2 Characteristics and outcomes of patients enrolled to the RATIFY study or the ALLG NBCR aged 18–59 with FLT3 mutation receiving intensive chemotherapy#.Fig. 1: Kaplan Meier survival curves among the key subgroups of ALLG NBCR cohort. Log-rank statistics are used for comparisons.

A Overall survival (OS) among all patients aged 18–59 years with FLT3-ITD and TKD mutated AML who received intensive chemotherapy, and according to the induction intensity (high or intermediate-dose cytarabine with anthracycline [H/IDAC + 3] versus standard 7 + 3). Missing induction regimen data for 1 patient. B OS and event-free survival (EFS) among patients aged 50–70 years with de novo AML who received intensive chemotherapy. Missing OS and EFS outcome data for 4 and 5 patients, respectively. C OS among patients aged 60–75 years with secondary or therapy-related AML who received intensive chemotherapy. Missing data for 2 patients. (D + E) OS (with 4-month landmark) among patients aged ≥55 years in first remission (CR1) according to (D) allogeneic HCT in CR1, and (E) number of consolidation chemotherapy received among patients (n = 185) not proceeding to HCT in CR1. F OS among patients who were unfit for intensive chemotherapy, according to the low-intensity regimens received.

Rates of CR in the ALLG NBCR cohort and the control arm of RATIFY were similar (60% vs 54%) (Table 2). Although overall rates of HCT were also similar, more patients underwent HCT in first remission in the ALLG NBCR cohort, compared to the RATIFY study (46 vs 25%, p < 0.001). With a median follow-up time of 25 months for patients in the ALLG NBCR cohort, the median OS was 45.7 months (95% CI, 29.3–NR) (Fig. 1A), compared to 25.6 months (95% CI, 18.6–42.9) and 74.7 months (95% CI, 31.5–NR) for patients in the placebo or midostaurin arms of the RATIFY study, respectively. The estimated 4-year OS was 43.2% (95% CI, 29.8–62.7) in the NBCR cohort, compared to 44.3% and 51.4% for patients in the placebo or midostaurin arms of the RATIFY study, respectively.

Registry-based outcomes for patients with de novo AML aged 50–70 years prior to the introduction of gemtuzumab ozogamicin

The French ALFA-0701 study randomized 280 patients to intensive chemotherapy (7 days of infusional cytarabine plus 3 days of daunorubicin) with or without GO 3 mg/m2 on days 1, 4, and 7 during induction and day 1 of each of 2 consolidation courses. The study enrolled patients with de novo AML aged 50–70 years between 2008–2010. GO was associated with an improved 2-year event free survival (EFS) (40.8% vs 17.1%), the primary endpoint of the study [3, 4].

GO was publicly subsidized by the PBS in Australia from March 2022. In the ALLG NBCR, 523 patients were aged between 50–70 years and 447 had de novo AML, of which 418 (94%) received intensive induction chemotherapy without GO. Table 3 compares the characteristics and outcomes of patients enrolled to the ALLG NBCR and both arms of the ALFA-0701 study. Baseline median age, cytogenetic and molecular characteristics were similar between the two cohorts. In the ALLG NBCR cohort, idarubicin (12 mg/m2) was the dominant anthracycline (93%) used in induction, compared to daunorubicin (60 mg/m2) in the ALFA-0701 study. The ALFA-0701 trial utilized daunorubicin in combination with intermediate-dose cytarabine (1 g/m2) as the consolidation backbone. Consolidation regimens in the ALLG NBCR cohort included intermediate-dose (1–1.9 g/m2 in 39%) or high-dose (≥2 g/m2 in 25%) cytarabine, with only 30% utilizing anthracycline. The ALLG NBCR cohort had a higher rate of allogeneic HCT in first remission (21% vs 14% compared to the ALFA-0701 study, p = 0.03).

Table 3 Characteristics and outcomes of patients enrolled to the ALFA-0701 study or the ALLG NBCR aged 50–70 years with de novo AML receiving induction chemotherapy#.

For patients recorded as receiving intensive chemotherapy in the ALLG NBCR, the CR rate was 65% (vs 72% for the SOC [7 + 3] arm of ALFA-0701), 2-year EFS was 43% (95% CI, 38–48) (vs 17% in the SOC arm of ALFA [95% CI, 11–27]) and 2-year OS 54% (95% CI, 48–59) (vs 42% in the SOC arm of ALFA [95% CI, 33–53]) (Fig. 1B).

Registry-based outcomes for patients with secondary/therapy-related AML aged 60–75 years prior to the introduction of CPX-351

CPX-351 was examined in an open label registration study, which randomized 309 patients between 2012–2014 to either 7 + 3 induction followed by 2 cycles of 5 + 2 consolidation, or CPX-351 for 1-2 induction cycles followed by consolidation with a similar regimen. The study enrolled patients with secondary or therapy-related AML aged 60–75 years. CPX-351 was associated with an improved median OS (9.6 vs 6.0 months), the primary endpoint of the study, and a higher complete response rate (48% vs 33%) [8]. The improved OS was maintained at 5-year follow-up: 18% vs 8% [13].

CPX-351 has been approved for marketing in Australia by the Therapeutic Goods Administration but is yet to be publicly subsidized in Australia. In the ALLG NBCR cohort, 387 patients were aged between 60–75 years and 85 (22%) received intensive chemotherapy for secondary (85%) or therapy-related (15%) AML. Secondary AML was defined by myelodysplasia-related cytogenetic abnormalities and/or prior MDS/CMML; AML-MRC based solely on morphology and those with antecedent myeloproliferative neoplasm were excluded from this analysis as per the eligibility criteria of the CPX-351 registration study [8].

Table 4 compares the characteristics and outcomes of patients enrolled to the CPX-351 study or the ALLG NBCR. Patients in the ALLG NBCR were less frequently ≥70 years (19% vs 36%, p = 0.003), more commonly had a baseline WBC ≥ 20 (31% vs 15%, p = 0.008) and more frequently had adverse risk karyotype (69% vs 50%, p = 0.02). The dominant anthracycline used for induction in the ALLG NBCR cohort was idarubicin (90%), compared to daunorubicin for patients in the control arm of the CPX-351 study. Furthermore, intermediate-dose cytarabine consolidation was used among 43% (15/35) of patients in the ALLG NBCR cohort, compared to 5 + 2 consolidation for all patients in the control arm of the CPX-351 study. Allogeneic HCT was more common in the CPX-351 study (29% vs 7% in the NBCR cohort, p < 0.001).

Table 4 Characteristics and outcomes of patients enrolled to the CPX-351 study or the ALLG NBCR aged 60–75 years with secondary or therapy-related AML receiving induction chemotherapy#.

Rates of CR/CRi in the ALLG NBCR cohort were 53% vs 33% (p = 0.005) in the control arm of the CPX-351 study. With a median follow-up time of 40 months in the ALLG NBCR cohort, median OS was 9.5 months (95% CI, 4.3–13.8) (Fig. 1C), compared to 5.95 months (95% CI, 4.99–7.75) in the control arm of the CPX-351 study.

Registry-based outcomes for patients aged ≥ 55 years in first remission after intensive chemotherapy prior to the introduction of oral azacitidine

The QUAZAR study randomized 472 patients between 2013–2017 to either oral azacitidine maintenance therapy or placebo. The study enrolled patients with non-CBF AML ≥ 55 years in first CR or CR with incomplete hematologic recovery (CRi) after induction +/− consolidation therapy among patients considered ineligible for allogeneic HCT. The primary endpoint of the trial was OS. Oral azacitidine was associated with an improved median OS (25 vs 15 months). Median time from CR to randomization was 85 days [9].

Oral azacitidine was listed on the PBS in Australia on 01-Sep-2023. In the ALLG NBCR cohort, induction chemotherapy was administered to 406 patients ≥55 years with non-CBF AML. CR or CRi after one or two (n = 34) induction cycles was achieved in 278 (68%) patients. After excluding early relapses or deaths within 85 days, 239 patients were included in the analysis, among which 54 patients (23%) underwent allogeneic HCT in the first remission, compared to 14% in the no maintenance arm of the QUAZAR study. The remaining 185 patients in the ALLG NBCR cohort exhibited a profile similar to the study population enrolled in the QUAZAR study; characteristics and outcomes are summarized in Table 5. Median age in the ALLG NBCR and the QUAZAR study were comparable (65 vs 68 years) and a similar proportion had adverse cytogenetic risk (~15%) or de novo AML (94% vs 91%). The proportion of patients in QUAZAR receiving none, one or ≥2 consolidation cycles after achieving CR/CRi were 20%, 45% and 35%, respectively, compared to 11%, 70% and 18% of patients in the ALLG NBCR cohort (p < 0.001).

Table 5 Characteristics and outcomes of patients enrolled to the QUAZAR study or the ALLG NBCR aged ≥55 years in CR or CRi after intensive chemotherapy#.

With a median follow-up time of 30.7 months in the ALLG NBCR cohort (4-month landmark), the median OS for patients who did not proceed to allogeneic HCT was 32.2 months (vs not reached in those who underwent HCT in first remission) (Fig. 1D), compared to 14.8 and 24.7 months for patients in the QUAZAR study receiving placebo or CC-486, respectively (Table 5). Among the ALLG NBCR cohort not proceeding to allogeneic HCT in first remission (n = 185), there was no significant difference in OS outcome for patients receiving 0, 1 or ≥2 consolidation cycles (Fig. 1E).

Registry-based outcomes for patients receiving non-intensive therapy prior to the introduction of venetoclax

Venetoclax in combination with azacitidine became available for general use in Australia from December 2021 for older patients unfit for intensive chemotherapy. The VIALE-A study enrolled patients between 2017–2019 with newly diagnosed AML ≥ 75 years or ineligible to receive intensive chemotherapy and excluded those with prior hypomethylating agent (HMA) exposure. In VIALE-A, 431 patients were randomized to either venetoclax or placebo in combination with azacitidine. The venetoclax arm had an improved median OS (14.7 vs 9.6 months) and rate of CR/CRi (66.4% vs 28.3%) over placebo [5].

The VIALE-C study also enrolled patients between 2017–2018 with newly diagnosed AML who were either ≥75 years or ineligible to receive intensive chemotherapy, but in contrast to VIALE-A, permitted patients with prior HMA exposure, a group which comprised 20% patients. A total of 211 patients were randomized to either venetoclax or placebo in combination with low-dose cytarabine (LDAC). In a post-hoc secondary analysis using more mature follow-up data, venetoclax was associated with an improved median OS (8.4 vs 4.1 months) and CR/CRi (48% vs 13%) [6].

In the ALLG NBCR, a total of 121 patients were deemed unfit and not given intensive chemotherapy. Seventeen patients received venetoclax and 40 patients opted for best supportive care only and were excluded from analysis. The remaining 64 patients received low-intensity therapy with a median age of 77 years, which was similar to VIALE-A (76 years) and VIALE-C (76 years) (Table 6). The proportion of patients with adverse cytogenetic risk was also comparable (26% vs 30–39%). The frequency of secondary AML was more common in the VIALE-C study (38%), compared to 25% in VIALE-A and 27% in the ALLG NBCR cohort (p = 0.002). The form of non-intensive therapy used for initial treatment of AML in the ALLG NBCR included HMA (67%), LDAC (13%), or other (20%), and the corresponding median bone marrow blast percentages were 26% (>30% blasts in 20% of patients), 62% and 79%, respectively. After a median follow-up time of 32 months (range 10–36) in the ALLG NBCR cohort, median OS for patients treated with either HMA or LDAC was 9.9 and 4.1 months (Fig. 1F), respectively, remarkably similar to the median OS observed for the respective SOC arms of VIALE-A (9.6 months for azacitidine) and VIALE-C (4.1 months for LDAC).

Table 6 Characteristics and outcomes of patients enrolled to the VIALE-A, VIALE-C and the ALLG NBCR receiving low-intensity therapy#.

Among patients receiving low-intensity therapy in the ALLG NBCR, only 5 patients were documented to undergo testing for the IDH1 mutation, and none of them tested positive. It is worth noting that systematic data capture for IDH1/2 mutation on the ALLG NBCR only commenced in October 2017. A comparison with the standard arm of the AGILE study [7], which compared ivosidenib or placebo plus azacitidine, was therefore not performed.