Purpose In 2016, the University of Munich Molecular Tumor Board (MTB) was implemented to initiate a precision oncology program. This review of cases was conducted to assess clinical implications and functionality of the program, to identify current limitations and to inform future directions of these efforts. Methods Charts, molecular profiles, and tumor board decisions of the first 1000 consecutive cases (01/2016–03/2020) were reviewed. Descriptive statistics were applied to describe relevant findings. Results Of the first 1000 patients presented to the MTB; 914 patients received comprehensive genomic profiling. Median age of patients was 56 years and 58% were female. The most prevalent diagnoses were breast (16%) and colorectal cancer (10%). Different types of targeted or genome-wide sequencing assays were used; most of them offered by the local department of pathology. Testing was technically successful in 88%. In 41% of cases, a genomic alteration triggered a therapeutic recommendation. The fraction of patients receiving a tumor board recommendation differed significantly between malignancies ranging from over 50% in breast or biliary tract to less than 30% in pancreatic cancers. Based on a retrospective chart review, 17% of patients with an MTB recommendation received appropriate treatment. Conclusion Based on these retrospective analyses, patients with certain malignancies (breast and biliary tract cancer) tend to be more likely to have actionable variants. The low rate of therapeutic implementation (17% of patients receiving a tumor board recommendation) underscores the importance of meticulous follow-up for these patients and ensuring broad access to innovative therapies for patients receiving molecular tumor profiling.
7016 Background: CA-4948 is a novel oral inhibitor of interleukin-1 receptor-associated kinase 4 (IRAK4) and FLT3. IRAK4 is critical in triggering inflammation, oncogenesis, and survival of cancer cells. Genetic mutations in the splicing factors SF3B1 and U2AF1 drive overexpression of a highly active long isoform of IRAK4 and have been associated with disease progression and poor prognosis of high-risk myelodysplastic syndrome (HR-MDS) and acute myeloid leukemia (AML). Methods: This is an open-label, phase 1/2a dose escalation and cohort expansion trial (NCT04278768). In phase 1 Dose Escalation, patients with R/R AML or HR-MDS are treated with CA-4948 monotherapy. Phase 1b includes 2 arms of combination therapy: CA-4948 + azacitidine (AZA) and CA-4948 + venetoclax (VEN). The primary objectives of this study are to assess the safety, clinical activity, and identify the Recommended Phase 2 Dose (RP2D) of CA-4948 as monotherapy or in combination with AZA or VEN in R/R AML or HR-MDS. The Phase 2a Dose Expansion includes patients for CA-4948 monotherapy: R/R AML with FLT3 mutation, or AML and HR-MDS R/R to HMA with U2AF1 or SF3B1 mutations. Results: As of December 16th, 2021, 49 patients have been treated in the phase 1 portion, of whom 43 started by September 30th, allowing 2 on-study disease assessments. The median number of prior therapies was 2 (range 1-5). Four monotherapy dose levels of CA-4948 were tested (200 to 500 mg orally BID). No dose-limiting toxicities were observed at 200 mg and 300 mg BID. No Grade 4 or 5 treatment-related AEs (TRAEs) were reported, and all the TRAEs were manageable. Reversible, manageable Grade 3 rhabdomyolysis occurred in 1/26 (4%) patients at 300 mg BID, 2/17 (12%) at 400 mg BID, and 1/3 (33%) at 500 mg BID. RP2D was determined as 300 mg BID. Of 43 patients starting before Sept 30th, 2021, 14 had SF3B1, U2AF1 or FLT3 mutations and demonstrated more promising efficacy. In the 5 evaluable AML patients with spliceosome mutations, 40% reached CR/CRh (1 CR, 1 CRh), both with study duration >6 months. In the 7 spliceosome-mutated HR-MDS patients, 57% reached marrow CR, including 1 with RBC transfusion independence and 1 proceeding to HSCT. One of the three FLT3-mutated AML reached CR, and 2 became FLT3-negative. Among the 29 patients without SF3B1/U2AF1/FLT3 mutations, 1 reached CR and 2 PR. Phase 1b and Phase 2a are ongoing. RNA-seq on selected samples showed decrease in relative expression of IRAK4-long isoforms with response to CA-4948. Conclusions: CA-4948 is well tolerated and effective in heavily pretreated AML and HR-MDS patients, especially in those with U2AF1/SF3B1/FLT3 mutations. No dose-limiting myelosuppression was reported, suggesting CA-4948 may be a candidate for combination therapy. Accrual of Phases 1b and 2a is ongoing. Clinical trial information: 04278768.
To evaluate the prognostic impact of FLT3-ITD in core-binding factor acute myeloid leukemia in an international, multicenter survey on 97 patients (52%, t(8;21)(q22;q22); 48% inv(16)(p13q22)/t(16;16)(p13;q22)). Median age was 53 (range, 19-81) years. Complete remission (CR) after anthracycline-based induction (n=86) and non-intensive therapy (n=11) was achieved in 97% and 36% of the patients. Median follow-up was 4.43 years (95%-CI, 3.35-7.39 years). Median survival after intensive and non-intensive treatment was not reached and 0.96 years, respectively. In intensively treated patients, inv(16) with trisomy 22 (n=11) was associated with a favorable 4-year relapse-free survival rate of 80% (95%-CI, 59-100%) as compared to 38% (95%-CI, 27-54%; P=0.02) in all other CBF-AML/FLT3- ITD positive patients (n=75). Overall, 24 patients underwent allogeneic hematopoietic cell transplantation (allo-HCT), 12 in first CR and 12 after relapse. Allo-HCT in first CR was not beneficial (P=0.60); however, allo-HCT seems to improve median survival in relapsed patients compared to chemotherapy (not reached versus 0.6 years; P=0.002). Excluding inv(16) with trisomy 22, our data indicate that the outcome of CBF-AML patients with FLT3-ITD seems to be inferior compared to published data on those without FLT3-ITD, suggesting that prognostically these patients should not be classified as favorable-risk. FLT3-inhibitors may improve outcome in those patients.
Cardiovascular and oncological diseases represent the global major causes of death. For both, a novel and far-reaching risk factor has been identified: clonal hematopoiesis (CH). CH is defined as clonal expansion of peripheral blood cells on the basis of somatic mutations, without overt hematological malignancy. The most commonly affected genes are TET2, DNMT3A, ASXL1 and JAK2. By the age of 70, at least 20–50% of all individuals carry a CH clone, conveying a striking clinical impact by increasing all-cause mortality by 40%. This is due predominantly to a nearly two-fold increase of cardiovascular risk, but also to an elevated risk of malignant transformation. Individuals with CH show not only increased risk for, but also worse outcomes after arteriosclerotic events, such as stroke or myocardial infarction, decompensated heart failure and cardiogenic shock. Elevated cytokine levels, dysfunctional macrophage activity and activation of the inflammasome suggest that a vicious cycle of chronic inflammation and clonal expansion represents the major functional link. Despite the apparently high impact of this entity, awareness, functional understanding and especially clinical implications still require further research. This review provides an overview of the current knowledge of CH and its relation to cardiovascular and hematological diseases. It focuses on the basic functional mechanisms in the interplay between atherosclerosis, inflammation and CH, identifies issues for further research and considers potential clinical implications.
Background: Background: Emavusertib (CA-4948) is a novel oral inhibitor of interleukin-1 receptor-associated kinase 4 (IRAK4) and FLT3. IRAK4 is critical in triggering inflammation, oncogenesis, and survival of cancer cells. Genetic mutations in the splicing factors SF3B1 and U2AF1 drive overexpression of a highly active long isoform of IRAK4 and have been associated with disease progression and poor prognosis of high-risk myelodysplastic syndrome (HR-MDS) and acute myeloid leukemia (AML).
Achievement of complete remission (CR) signifies a crucial milestone in the therapy of acute myeloid leukemia (AML) while refractory disease is associated with dismal outcomes. Hence, accurately identifying patients at risk is essential to individually tailor treatment concepts to disease biology. We used nine machine learning (ML) models to predict CR and 2-year overall survival (OS) in a large multi-center cohort of 1383 AML patients who received intensive induction therapy using clinical, laboratory, cytogenetic and molecular genetic data and validated our results on an external multicenter cohort. Our ML models autonomously selected predictive features both including established markers of favorable or adverse risk as well as identifying markers of so-far controversial relevance. De novo AML, extramedullary AML, double-mutated (dm) CEBPA, mutations of CEBPA-bZIP, NPM1, FLT3-ITD, ASXL1, RUNX1, SF3B1, IKZF1, TP53, U2AF1, t(8;21), inv(16)/t(16;16), del(5)/del(5q), del(17)/del(17p), normal or complex karyotypes, age and hemoglobin at initial diagnosis were statistically significant markers predictive of CR, while t(8;21), del(5)/del(5q), inv(16)/t(16;16), del(17)/del(17p), dmCEBPA, CEBPA-bZIP, NPM1, FLT3-ITD, DNMT3A, SF3B1, U2AF1, TP53, age, white blood cell count, peripheral blast count, serum LDH and Hb at initial diagnosis as well as extramedullary manifestations were predictive for 2-year OS. For prediction of CR and 2-year OS, AUROCs ranged between 0.77 – 0.86 and 0.63 and 0.74, respectively in our test set and 0.71 – 0.80 and 0.65 – 0.75 in the external validation cohort. We demonstrate the feasibility of ML for risk stratification in AML as a model disease for hematologic neoplasms using a scalable and reusable ML framework. Our study illustrates the clinical applicability of ML as a decision support system in hematology.
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