Study Background and Disease Burden
Acute myeloid leukemia (AML) represents an aggressive hematologic malignancy predominantly affecting older adults, with a median diagnosis age exceeding 65 years. Intensive chemotherapy (IC) remains the standard of care for fit patients, yet many elderly or comorbid patients are deemed ineligible due to high toxicity and poor tolerance. Historically, outcomes for patients ineligible for IC have been dismal, with limited treatment options beyond supportive care.
The advent of targeted therapies has transformed AML treatment paradigms, particularly for older patients harboring actionable genomic alterations. Among these, mutations in isocitrate dehydrogenase (IDH) 1 and 2 occur in approximately 20% of AML cases and drive leukemogenesis via oncometabolite production. IDH inhibitors, namely ivosidenib (IVO) for IDH1 and enasidenib (ENA) for IDH2 mutations, have been approved for AML with these respective mutations, offering novel options for frontline and relapsed settings.
Frontline doublet regimens combining venetoclax (VEN), a BCL-2 inhibitor, with hypomethylating agents (HMAs) such as azacitidine (AZA) or decitabine (DEC) are now standard for IC-ineligible AML, including IDH-mutated subgroups. Similarly, the combination of AZA plus IVO is approved for IDH1-mutated AML. Despite these advances, monotherapy or doublet regimens often fail to achieve durable remissions and many patients relapse, underscoring the need for improved therapeutic strategies.
Study Design
This analysis reports on 60 newly diagnosed IC-ineligible patients with IDH-mutant AML treated at a single institution using frontline triplet regimens. Patients received either AZA + VEN + IVO under clinical trial NCT03471260 (exclusively IDH1-mutated patients) or oral DEC + VEN combined with IVO or ENA, depending on IDH1 or IDH2 mutation status, through trial NCT04774393.
These regimens integrate a hypomethylating agent with venetoclax and the appropriate IDH inhibitor, hypothesized to synergistically induce deeper and more durable remissions by exploiting distinct leukemogenic mechanisms while maintaining tolerability in an elderly/comorbid population.
Primary endpoints evaluated included composite complete remission rate (CRc), overall response rate (ORR), safety profile, early mortality, overall survival (OS), and cumulative incidence of relapse. Subgroup analyses focused on treated-secondary AML (tsAML), known to confer inferior prognosis, and transplant outcomes.
Key Findings
The triplet regimens demonstrated excellent tolerability, with only one early death (2%) occurring within 60 days, comparable to doublet regimens involving VEN + HMA or AZA + IDH inhibitor. Adverse events did not notably exceed expected profiles of these agents.
Efficacy was notably high. The composite complete remission (CRc) rate reached 92% (55 out of 60 patients), and the overall response rate was 95% (57/60). These response rates surpass those historically observed with doublet therapies in similar populations.
With a median follow-up of 27.4 months, median overall survival was not yet reached, indicating durable benefit. The 2-year OS rate stood at 69%, with a 2-year cumulative incidence of relapse of only 24%, suggesting prolonged disease control.
Patients with treated-secondary AML had inferior outcomes: CRc was 71% (12/17), and 2-year OS approximately 34%, contrasted with an 84% 2-year OS in patients without tsAML. This aligns with the recognized poor prognosis associated with secondary AML.
Importantly, 32% of patients proceeded to allogeneic stem cell transplant, a potentially curative therapy, and 51% remained on study treatment at data cutoff, reflecting both the durability and tolerability of the triplet approach.
Expert Commentary
This study presents compelling evidence that frontline triplet regimens incorporating an HMA, venetoclax, and IDH inhibitor confer superior remission rates and survival outcomes relative to approved doublet therapies in IC-ineligible IDH-mutated AML.
Mechanistically, VEN exploits BCL-2 dependence common in AML blasts, HMAs modify epigenetic regulation to promote apoptosis and differentiation, and IDH inhibitors correct neomorphic metabolic dysregulation. Their combination may synergistically eradicate leukemic clones by targeting complementary oncogenic pathways.
While promising, these results arise from single-arm trials at a single institution, warranting cautious interpretation. Larger randomized trials comparing triplet versus doublet regimens are ongoing or needed to confirm superiority, optimal sequencing, and long-term safety profiling.
Furthermore, poorer outcomes among tsAML patients highlight the necessity for tailored strategies in this subgroup, potentially involving earlier transplant or novel agents.
Current guidelines recognize VEN + HMA and AZA + IVO as frontline options for IC-ineligible AML, but triplet regimens are not yet standard. This study supports consideration of triplets in clinical trials and suggests a possible paradigm shift pending confirmatory evidence.
Conclusion
The introduction of frontline triplet regimens combining hypomethylating agents, venetoclax, and IDH inhibitors has demonstrated encouraging efficacy and safety profiles in IC-ineligible patients with IDH-mutated AML. High remission rates, durable survival, and manageable toxicity signify an advance over existing doublet regimens.
Further prospective randomized studies are essential to establish triplet therapies as new frontline standards, define patient selection criteria, and refine treatment algorithms, particularly for challenging subsets such as tsAML. These findings highlight the ongoing evolution toward highly personalized, mechanism-driven AML treatment to improve outcomes for vulnerable patients.
References
1. DiNardo CD, Marvin-Peek J, Loghavi S, et al. Outcomes of Frontline Triplet Regimens With a Hypomethylating Agent, Venetoclax, and Isocitrate Dehydrogenase Inhibitor for Intensive Chemotherapy-Ineligible Patients With Isocitrate Dehydrogenase-Mutated AML. J Clin Oncol. 2025 Aug 20;43(24):2692-2699. doi:10.1200/JCO-25-00640.
2. DiNardo CD, et al. Ivosidenib or Enasidenib for IDH1 or IDH2-mutated AML. Blood. 2020;135(7):505-509.
3. DiNardo CD, et al. Venetoclax combined with hypomethylating agents in AML: Breakthrough in therapy for unfit patients. Leukemia. 2019;33(7):1724-1734.
4. National Comprehensive Cancer Network (NCCN) Clinical Practice Guidelines in Oncology: Acute Myeloid Leukemia. Version 3.2024.
