ALBERT

Description: Introduction: Blinatumomab is a bispecific, CD19-directed CD3 T-cell engager (BiTE®) that activates endogenous cytotoxic T cells to kill target B cells and is FDA-approved for the treatment of relapsed or refractory (R/R) B-cell precursor acute lymphoblastic leukemia (B-ALL). Subgroup analyses of pivotal trials revealed lower response rates and higher risk of cytokine release syndrome (CRS) in blinatumomab recipients with high pre-treatment tumor (B-ALL) burden. It has therefore been hypothesized that cytoreduction prior to blinatumomab initiation may improve response and reduce risk of severe CRS in patients (pts) with high baseline B-ALL burden. We therefore sought to describe pt and disease characteristics at diagnosis, patterns of pre-blinatumomab cytoreduction, and treatment outcomes in pts with high burden of R/R B-ALL treated with blinatumomab at our institution. Methods: We retrospectively reviewed medical records of adult (≥ 18 years-old) pts with morphologic R/R B-cell ALL (i.e. ≥5% BM blasts and/or radiographically evident EM disease) treated with blinatumomab at Memorial Sloan Kettering Cancer Center (MSKCC) between January 2011 and March 2019 and characterized pts with ≥ 50% bone marrow (BM) blasts by morphology or ≥ 15,000 peripheral blood blasts/µL as having "high-burden" B-ALL. CRS and neurologic toxicity (NTX) were graded per Common Terminology Criteria for Adverse Events v5.0. Objectives included describing cytoreductive therapy given pre-blinatumomab and determining rates of NTX and CRS (any grade and grade ≥3) and morphologic complete response (CR) following 1-2 cycles of blinatumomab. Results: We identified 14 pts with high-burden R/R B-ALL prior to blinatumomab. These pts had a median age of 52 years (range, 23 - 69 years) and median BM blasts of 73% (range, 52 - 〉95%, n=12 pts with evaluable BM). Of these 14 pts, 8 received cytoreductive therapy prior to blinatumomab initiation. Cytoreductive regimens included dexamethasone alone (n=4), cyclophosphamide + dexamethasone (n=2), dexamethasone and vincristine (n=1), or cyclophosphamide + vincristine + dexamethasone (n=1). One pt transitioned to hospice care prior to completing cycle 1 (C1) of blinatumomab and was considered non-evaluable for response. CR was achieved in 6 of the 13 evaluable pts, including 4 of 7 evaluable pts who received cytoreductive therapy and 2 of 6 pts who did not receive cytoreductive therapy. One pt achieved CR in BM but exhibited refractory extramedullary disease. CRS was observed during C1 of blinatumomab in 11/14 pts (grade 1, n=7; grade 2, n=3; grade 3, n=1). The pt with grade 3 CRS had received blinatumomab without cytoreductive therapy. In 4 pts, blinatumomab was temporarily discontinued for management of CRS. NTX of any grade occurred in 4/13 pts during C1, including 1 pt w/grade 3 NTX (depressed level of consciousness), and was reversible in all cases; the pt with grade 3 NTX had full resolution of symptoms following brief interruption of blinatumomab and administration of dexamethasone. Conclusions: Real-world clinical experience with blinatumomab in pts with high-burden B-ALL at a single institution suggested an efficacy and safety profile comparable to what has been reported in the overall population in clinical trials. Compared to published clinical trial experience, rates and severity of CRS following blinatumomab were similar and rates of NTX appeared slightly higher in this small series. Administration of cytoreductive therapy prior to blinatumomab for pts with high-burden B-ALL appears safe, with no additional toxicities. Larger studies will be required to assess whether pts with high-burden B-ALL treated (vs not treated) with cytoreductive therapy prior to blinatumomab exhibit significantly higher rates of CR. Disclosures King: Incyte: Other: Advisory Board; Genentech: Other: Advisory Board ; Astrazeneca: Other: Advisory board. Bolanos:Amgen Inc.: Employment. Velasco:Amgen Inc.: Employment. Tu:Amgen Inc.: Employment. Zaman:Amgen Inc.: Employment. Geyer:Dava Oncology: Honoraria; Amgen: Research Funding. Park:Allogene: Consultancy; Amgen: Consultancy; AstraZeneca: Consultancy; Autolus: Consultancy; GSK: Consultancy; Incyte: Consultancy; Kite Pharma: Consultancy; Novartis: Consultancy; Takeda: Consultancy.

Description: Background: Preclinical work from our group and others has demonstrated that the combination of a farnesyl transferase inhibitor (FTI) and the proteasome inhibitor bortezomib results in enhanced plasma cell apoptosis and is associated with AKT activation (David, Blood 2005). More recently, further preclinical data suggests that the mechanism responsible for this profound synergy is due to inhibition of HDAC6 with a resultant inhibition of both the proteasome and aggresome pathway (David ASH 2007). Based upon these observations, with the MMRC we initiated a phase I trial combining the FTI tipifarnib with bortezomib to clinically evaluate the efficacy of this combination. Methods: Patients with relapsed or refractory myeloma were treated with bortezomib at 1.0 mg/m2 given on days 1,4,8, and 11 in conjunction with escalating doses of tipifarnib (100–400mg/BID) given on days 2–15 every 21 days. Dose escalation was accomplished using an adaptive phase I design (Escalation With Overdose Control (EWOC)). Eligibility criteria included a serum creatinine of 500, and platelets 〉25. If dose escalation is able to proceed to 400mg of tipifarnib with 1.0 mg/m2, the tipifarnib dose escalation will restart with bortezomib given at 1.3 mg/m2. Results: Sixteen patients have been enrolled to date into respective tipifarnib dose levels 100 mg(n=6),200mg (n=5) and 300mg (n=5). Median age for the enrolled patients is 59 (range 43–76) and median time from myeloma diagnosis was 4.7 years. 15/16 patients had received prior high dose therapy. The average number of prior therapies was 4.5, and of the16 patients, 8 were refractory to prior bortezomib (relapsed on therapy or within 6 months) 4 were bortezomib naïve, and 4 were previously exposed to bortezomib but not known to be refractory. Among these patients with advanced myeloma and refractory disease, stabilization of disease or better was seen among 7/16 patients with 2 of the 7 achieving an MR. Of note, among the patients achieving clinical benefit, 1 patient had a stable M-protein, but experienced an 80% reduction in circulating plasma cells while on therapy, and another has had a 75% reduction in the free light chain assay. The most common drug related side effects were was Gr2 diarrhea (23.5%). Hematologic toxicities were difficult to ascertain as patients had advanced myeloma and many were entered onto study with platelet counts between 25 and 50. Additional grade 3 toxicities included renal insufficiency (related to progression), pneumonia and altered mental status which were all considered unrelated to study drug, but were associated with progression of disease. There were no Grade 3 –5 drug related toxicities. There were no cardiac events or DVT, and 1 patient experienced grade 2 peripheral neuropathy who did not have pre existing PN at baseline. Conclusions: The combination of bortezomib and tipifarnib is supported by preclinical rationale and has produced stable disease or better among a group of patients with refractory and advanced myeloma. To date the optimal dose of both tipifarnib and bortezomib have yet to be defined, and additional patients will be enrolled to define the MTD for tipifarnib with 1.0mg/m2 of bortezomib, followed by escalation of tipifarnib with 1.3mg/m2 of bortezomib. Correlative studies evaluating the effect of the combination on HDAC6 and plasma cell apoptosis will be presented.

Description: Abstract 4892 Introduction In multiple myeloma (MM), hemoglobin (Hb) levels have long been part of staging of the disease and an important determinant in assessing treatment options, response to therapy and prognosis. The causes of a low Hb level are complex, but reflect in part the extent of myeloma cell infiltration in the bone marrow. Changes in the level of the monoclonal immunoglobulin protein in the blood and/or urine (M protein) serve as the main surrogate marker for response to treatment and progression of disease in the majority of patients (pts). This analysis explores the longitudinal relationship between treatment response (using M protein levels from serum protein electrophoresis [SPEP] results) and Hb levels. Methods This retrospective chart review included all pts who initiated drug treatment for relapsed/refractory MM between Jan-06 and Dec-07, inclusive, at Princess Margaret Hospital, Toronto, ON. Hb and M protein (SPEP) results were collected before the start of each treatment cycle. These results were then plotted over time to explore the association between these 2 variables. Results 136 of 281 (48.4%) of pts treated for relapsed/refractory MM had at least one simultaneous measurement of Hb and serum M protein levels and were included in the analysis. Mean age was 66 (SD±9.7) years, 65% of pts were male. More than half (63.2%) of the pts were receiving treatment for 1st MM relapse. Treatments for relapsed/refractory MM included cyclophosphamide ± steroids (33.1%), bortezomib-based regimens (20.6%), thalidomide-based regimens (26.5%), steroid monotherapy (15.4%), and other regimens (4.4 %). Patients received between 1 and 17 cycles of therapy (mean = 2.5 ± 2.9 cycles). Supportive care measures included erythropoiesis stimulating agents (ESAs) in 33.8% [mean dose was 488 (SD±23) μg q3 weeks and 42,343 (SD±7,768) IU weekly for darbepoetin alfa and Epoetin alfa, respectively], RBC and/or platelet transfusions in 17% (14.1% RBC and 6.7% platelets), and G-CSF in 7.4% of pts. The plot below (Figure 1) demonstrates a decrease in serum M protein levels over time and an inverse relationship between Hb and serum M protein levels. Both the decrease of serum M protein levels (p-value