Updated results from MOMENTUM: Momelotinib vs. Danazol in JAK inhibitor-experienced, symptomatic, and anaemic myelofibrosis patients

The phase 3 MOMENTUM study (NCT04173494) of the ACVR1/JAK1/JAK2 inhibitor momelotinib (MMB) vs. danazol (DAN) in patients with myelofibrosis (MF) previously treated with a JAK inhibitor (JAKi) met the primary endpoint and all key secondary endpoints at week 24 (W24). We provide updated results from week 48 assessments. Eligible patients had primary or post-ET/ PV MF;DIPSS high, Int-2, or Int-1 risk;Total Symptom Score (TSS) >=10;haemoglobin (Hb) <10 g/dL;platelets >=25 x 109/L;prior JAKi for >=90 days (>=28 days if red blood cell [RBC] transfusions >=4 units in 8 weeks or grade 3/4 thrombocytopenia/anaemia/ hematoma);and palpable spleen >=5 cm. Randomisation was 2:1 to MMB 200 mg/day or DAN 600 mg/day for 24 weeks, followed by open-label (OL) MMB. Week 48 endpoints included durations of response (TSS, transfusion independence [TI], splenic) and overall and leukaemia-free survival (OS, LFS). As of 17 May 2022, 93/130 (72%) MMB -> MMB and 41/65 (63%) DAN -> MMB patients received OL MMB;mean MMB durations were 48 weeks and 24 weeks, respectively. Analyses for W24 responders showed the following: of TSS responders, 31/32 (97%) MMB -> MMB and 6/6 DAN -> MMB patients had TSS < baseline;of TI responders, 36/40 (90%) and 10/13 (77%) had no RBC transfusions or Hb <8 g/dL;and of spleen responders, all patients had splenic volume < baseline. In the OL phase, the most common grade >=3 treatment-emergent adverse events (TEAEs) were thrombocytopenia (MMB -> MMB, 9%;DAN -> MMB, 15%) and anaemia (MMB -> MMB, 9%;DAN -> MMB, 2%). Grade >=3 infections occurred in 19% of MMB -> MMB and 10% of DAN -> MMB patients, including grade >=3 (nonfatal) COVID-19. Peripheral neuropathy (PN) occurred in 2% of patients in each arm, and none discontinued MMB due to PN. TEAEs led to MMB discontinuation in 18% (MMB -> MMB) vs. 10% (DAN -> MMB). A trend towards improved OS up to W24 was previously observed with MMB vs. DAN (hazard ratio [HR], 0.506;p = 0.0719);after all patients crossed over to OL MMB, OS and LFS curves for both arms converged (HR, 0.945, 95% CI, 0.528-1.693;HR, 0.830, 95% CI, 0.473-1.4555). Sixty of 81 (74%) MMB -> MMB and 29 of 43 (67%) DAN -> MMB patients with baseline platelets <=150 x 109/L entered the OL phase. Efficacy and safety results in thrombocytopenic subgroups in the OL period were consistent with the intent-to- treat (ITT) population. OL MMB maintained symptom, TI, and spleen responses with continued good survival and safety in the ITT and low platelet populations. MMB may address an unmet need in anaemic patients with MF.

Study of Riamilovir Activity Against SARS-CoV-2 Infection In Syrian Hamsters

The activity of the antimetabolic drug Riamilovir (TriazavirinR) was studied on a model of SARS-CoV-2 infection on Syrian hamsters. Infectious process was caused by the intranasal administration of the virus accumulated in the Vero-B culture with a concentration of 4.25×104 TCID50, in a volume of 26 μl/hamster. The effects of the drug at a dose of 20 mg/kg intraperitoneally daily in the midst of the infectious process were traced to accelerate the clearance of the virus in the lungs, prevent body weight loss and the severity of pulmonary edema, as well as preserve the mass of the spleen. The protective effects of Riamilovir on the structure of the lungs and brain are shown, it is suggested that the drug has the ability to penetrate the blood-brain barrier. It was concluded that Riamilovir has antiviral activity against SARS-CoV-2.

Physical and visual (social) isolation increases tumor aggressiveness in thermoneutral housin temperatures in murine mammary cancer models

Correct interpretation of tumor progression data, including the influence of host biology, in mouse models of breast cancer requires models and conditions that faithfully recapitulate human disease and human host status. Our previous attempts to investigate the effects of social isolation have proven inconclusive due to premature mortality in tumor-bearing animals. Those studies were completed in standard temperature (ST), which commonly is 70-72°F (21-22°C) for in vivo murine research based on laboratory animal care and use guidelines. Previous work from the Repasky lab (Kokulus, 2013), which we have validated (Gaymon, 2020), demonstrates that ST housing results in chronic cold stress and immune suppression mediated by an increase in norepinrephrine (NE) levels, leading to increased tumor aggressiveness. Based on these findings, we investigated the effects of social isolation on BALB/cJ-4T1-luc and C57BL/6J/E0771 tumor progression and metastasis in thermoneutral housing conditions (84-85°F). Mice were first acclimatized to thermoneutral temperature and/or isolation for two weeks in cages that were unilaterally draped to provide physical and visual isolation. In BALB/cJ mice, 4T1-luc tumors were significantly larger in isolated mice compared to group-housed (GH) mice at day 18 (p<.0001). Statistically larger tumors were observed in isolated mice compared to GH mice through day 24 and final tumor masses were Salso significantly different (p=.004). Spleen masses were not statistically different. In C57BL/6J mice, E0771 tumors were significantly larger in isolates at Day 25 (p=.002). Final tumor masses were statistically (p=.002) different while no difference in spleen sizes were observed. Data on metastasis will be presented at the meeting. We hypothesized that social isolation may perturb immune function and next investigated the growth of 4T1-luc xenograft tumors in NSG mice. 4T1-luc/NSG tumor progression and metastasis data will also be presented at the meeting. We conclude that syngeneic breast tumor growth in immunocompetent BALB/cJ and C57BL/6J mice demonstrates that social isolation is a bona fide stress with sufficient influence to exacerbate breast cancer growth. These data are potentially clinically important due the known relationship of social support to survivorship outcomes in patients and the high-risk of depression and isolation in patients following breast cancer diagnosis. The data may provide additional insight into possible effects of COVID-19 isolation on breast cancer progression.

eP280: Continued improvement in adults with acid sphingomyelinase deficiency after 2 years of olipudase alfa in the ASCEND placebo-controlled trial

Introduction: Acid sphingomyelinase deficiency (ASMD), also historically known as Niemann-Pick disease A (OMIM #257200) and B (OMIM#607616), is a rare and debilitating lysosomal storage disease caused by pathogenic variants in SMPD1 gene. Deficient activity of the lysosomal enzyme acid sphingomyelinase (ASM) leads to sphingomyelin accumulation in various organs. Visceral manifestations of ASMD include interstitial lung disease and pulmonary dysfunction, splenomegaly, hepatomegaly, dyslipidemia, thrombocytopenia, and anemia and are present across ASMD phenotypes (ASMD type A, B and A/B). In more severe cases of ASMD (ASMD type A), there are also central nervous system manifestations. No disease-specific treatment is currently approved for patients with ASMD. Olipudase alfa, an intravenous-recombinant-human ASM, is in late-stage development (Sanofi Genzyme) for the non-central-nervous-system manifestations of ASMD in children and adults. Two open-label trials, a phase 1b trial in 5 adults (NCT01722526) and a phase 1/2 trial in 20 children with chronic ASMD (ASCEND-Peds, NCT02292654) demonstrated improvement of pulmonary function, reduction of liver and spleen volume, reversal of dyslipidemia, decreased disease biomarkers, and in children, improved growth. A phase 2/3 placebo-controlled trial, the ASCEND study (NCT02004691) in 36 adults with ASMD who had splenomegaly and pulmonary dysfunction, has completed its primary analysis. Olipudase-alfa-treated patients compared to placebo-treated patients (1:1 randomization) had statistically significant increases in percent-predicted diffusing capacity of carbon monoxide (DLCO) and statistically significant decreases in spleen and liver volume after 1 year of placebo or olipudase alfa. Thirty-five of 36 patients continued in an open-label trial extension including 17 of the 18 patients who initially received placebo in the first year and all 18 patients who received olipudase alfa. Here we report Year 2 results of the ASCEND trial for the former placebo group after 1 year of olipudase alfa treatment and for the initial olipudase alfa group after 2 years of olipudase alfa treatment. Methods: All patients underwent gradual dose-escalation to 3.0 mg/kg every 2 weeks for approximately 14 weeks when starting olipudase alfa. Efficacy outcomes include percent-predicted DLCO, spleen volume, liver volume, lung high-resolution computerized tomography (HRCT) scores for ground glass appearance, histopathologic clearance of sphingomyelin in the liver, platelet count, plasma lyso-sphingomyelin, liver function, and lipid profile. Change from baseline results are presented as least-square mean (analysis of covariance [ANCOVA]) percent change ± standard error of the mean (SEM), except for ground glass appearance, which is the least-square mean ANCOVA absolute change from baseline, and percent liver tissue area occupied by sphingomyelin and plasma lyso-sphingomyelin, which are presented as mean changes ± standard deviation (SD). Absolute values at Baseline, Year 1, and Year 2 are presented as mean ± SD (Table). Results: Overall, 33 of 35 patients completed Year 2 of ASCEND;one former placebo patient withdrew due to COVID-19 travel restrictions, and one continuing olipudase alfa patient withdrew consent. COVID-19 travel restrictions also resulted in at least one missed assessment in six patients. In Year 2, improvements for patients in the former placebo group paralleled the olipudase alfa group in the primary analysis while clinical improvement continued for patients who received 2 years of olipudase alfa (Table). For patients in the former placebo group, percent-predicted DLCO increased by 28.0 ±6.2% (n=10);spleen volume decreased by 36.0 ±3.0% (n=11);liver volume decreased by 30.7 ±2.5% (n=11), and platelet count increased by 21.7 ±6.4% (n=15). In patients with 2 years of olipudase alfa treatment, percent-predicted DLCO increased by 22.2 ±3.4% (n=17) at Year 1 and 28.5±6.2% at Year 2 (n=10);spleen volume decreased by 39.5 ±2.4% (n=17) at Year 1 and 47.0 ±2.7% (n=14) at Year 2 liver volume decreased by 27.8 ±2.5% (n=17) at Year 1 and 33.4 ±2.2% (n=14) at Year 2, and platelet count increased by 16.6 ±4.0% at Year 1 (n=18) and 24.9 ±6.9% (n=13) at Year 2. HRCT ground glass appearance score decreased 0.30 ±0.5 (n=14) at Year 2 for patients in the former placebo group and decreased by 0.45 ±0.13 (n=18) at Year 1 and 0.48 ±0.07 (n=16) at Year 2 for patients continuing to receive olipudase alfa. Liver sphingomyelin clearance at Year 2 was 93.3 ±5.0% (n=10) for patients in the former placebo group and 92.7 ±5.8% at Year 1 (n=13) and 98.4 ±2.0% at Year 2 (n=10) for patients continuing to receive olipudase alfa. Plasma lyso-sphingomyelin decreased by 79.4 ±11.3% (n=14) for patients in the former placebo group and by 78.0 ±11.1% (n=18) at Year 1 and 64.4 ±28.5% (n=15) at Year 2 for patients continuing to receive olipudase alfa;several patients had transient increases due to missed infusions. Alanine aminotransferase decreased by 45.2 ±34.4% (n=15) for patients in the former placebo group, and by 36.5 ±8.4% (n=18) in Year 1 and 32.0 ±10.2% (n=12) in Year 2 for patients continuing to receive olipudase alfa. For patients in the former placebo group, high-density lipoprotein cholesterol (HDL-C) increased by 59.7 ±9.7% (n=14) and low-density lipoprotein cholesterol (LDL-C) decreased by 27.5 ±6.8% (n=13) in Year 2. For patients continuing to receive olipudase alfa, HDL-C increased by 40.0 ±6.8% (n=18) in Year 1 and 64.4 ±10.5% (n=12) in Year 2 and LDL-C decreased by 25.8 ±4.8% (n=18) in Year 1 and 23.0 ±7.1% (n=12) in Year 2. Overall, 99% of treatment-emergent adverse events were mild or moderate, with one treatment-related serious adverse event (extrasystoles in patient with previously documented cardiomyopathy). No patient discontinued due to an adverse event. Conclusion: During Year 2 of ASCEND, patients crossing over from placebo to olipudase alfa had the same magnitude and time course of clinical improvement seen in patients receiving olipudase alfa for 1 year, while continuing olipudase-alfa patients had sustained or further improvements. Olipudase alfa reduced sphingomyelin storage in the liver and lyso-sphingomyelin in plasma. Clinically, olipudase alfa improved pulmonary function, reduced splenomegaly and hepatomegaly, and improved liver function and dyslipidemia for up to 2 years. These results are consistent with the published 30- and 42-month data for adults reported in the long-term extension of the open-label Phase 1b study. Treatment with olipudase alfa reduces manifestations of chronic ASMD in adults and has sustained efficacy. [Formula presented]

Two-year results of the ASCEND trial of olipudase alfa adults with chronic acid sphingomyelinase deficiency show parallel improvements in former placebo patients and further improvement in continuing olipudase alfa patients

Acid sphingomyelinase deficiency (ASMD) is a rare debilitating lysosomal disease characterized by pulmonary dysfunction, hepatosplenomegaly, and dyslipidemia. Olipudase alfa, intravenous-recombinant-human ASM, is in late-stage development (Sanofi Genzyme) for non-central-nervous-system manifestations of ASMD. We report 2-year outcomes for 33/36 ASMD adults with splenomegaly (mean baseline spleen volume: 11.3 multiples of normal [MN]) and respiratory impairment (mean baseline percent-predicted-diffusing capacity for carbon monoxide [DLCO]: 49.3%) who participated in the 1-year double-blind placebo-controlled primary-analysis period [PAP] of the ASCEND trial of olipudase alfa (NCT02004691) and completed a second year in the open-label extension. Patients underwent gradual dose-escalation to 3.0 mg/kg/2-weeks. During the PAP, olipudase-alfa-treated compared to placebo-treated patients (1:1 randomization) had statistically significant increases in DLCO and decreases in spleen and liver volume. One placebo patient withdrew during year-1. In year-2, improvements in former placebo patients paralleled the olipudase-alfa group in the PAP (all values: ANCOVA LS-mean percent change from trial baseline ± SEM): DLCO increased 28.0 ± 6.2% (n = 10);spleen volume decreased 36.0 ± 3.0% (n = 11);liver volume decreased 30.7 ± 2.5% (n = 11). Olipudase-alfa patients who received 2 years of treatment continued improving: DLCO increased 28.5 ± 6.2%, n = 10 (year-1 increase: 22.2 ± 3.4%, n = 17);spleen volume decreased 47.0 ± 2.7%, n = 14 (year-1 decrease: 39.5 ± 2.4%, n = 17), liver volume decreased 33.4 ± 2.2%, n = 14 (year-1 decrease: 27.8 ± 2.5, n = 17). Improvements in dyslipidemia, liver function, liver sphingomyelin clearance, and plasma lyso-sphingomyelin in former placebo patients paralleled those seen in olipudase-alfa patients in the PAP;continuing olipudase-alfa patients maintained these benefits in year-2. Overall, 99% of treatment-emergent adverse events were mild/moderate, with one treatment-related serious adverse event. During year-2, six patients missed ≥1 assessments and one patient discontinued due to COVID-19 travel restrictions;one additional patient discontinued (withdrawal of consent). In summary, during year-2 of ASCEND, crossover-placebo patients improved to a similar extent as olipudase-alfa patients in year-1 and patients continuing on olipudase alfa showed sustained or further improvements.

Serological Response to BNT162b2 Anti-Sars-Cov-2 mRNA Vaccine in Patients with Transfusion Dependent Thalassemia

Thalassemia is an inherited blood disorder characterized by defective hemoglobin production, ineffective erythropoiesis and chronic hemolytic anemia. Patients with both transfusion-dependent thalassemia (TDT) and non-transfusion dependent thalassemia (NTDT) have risk factors associated with severe SARS-CoV-2 infection including iron overload, endocrinopathies, massive splenomegaly or previous splenectomy and coagulopathy (Motta et al, Am J Hematol, 95: E198-E199., 2020). Although vaccination is encouraged for these patients, data on the efficacy and safety of anti Sars-CoV-2 vaccines are limited (Karimi, M, et al, Br J Haematol, 190: e137-e140, 2020;Mandana Zafari, et al, Hemoglobin, 45:1, 1-4, 2021) due to exclusion of these patients from clinical trials. In a single center, prospective, cohort study we compared 67 patients affected by TDT to 61 healthy controls (HC), matched for age and sex. Study population and HC received two doses of BNT162b2 anti-SARS-Cov-2 mRNA vaccine on days 1 and 21, between April 1st and May 15 th, 2021. Serological tests were performed by a commercially available immunoassay for the quantitative determination of anti-spike IgG antibodies to SARS-CoV-2. The results were reported as Arbitrary Units (AU)/mL, with a cut-off for defining response as 50 or greater AU/ml. Patients and HC samples were collected four weeks after the second dose of vaccine. Median age of patients was 43 years (range 19-77), 39% of them were male and 61% were female. Median age of HC was 39 years (range 19-86), 43% of them were male and 57% were female. All controls achieved a response (50 or greater AU/mL) to vaccination, whereas 66/67 (98,5%) patients responded. Antibody titers were significantly higher (p=0.0005) in the HC group (mean 9863 ± 7784;median 7712, range 1206-51664) compared to patients (mean 7945 ± 12326;median 4025, range 19-89202) (Figure 1). When analyzing the patients' factors, age, sex, transfusion interval, serum ferritin level, and spleen size did not impact on the response to vaccination. With a median follow-up of 12 weeks, no relevant side effects were recorded after vaccination and no case of COVID19 occurred among vaccinated TDT patients. In conclusion, BNT162b2 anti-SARS-Cov-2 mRNA vaccine demonstrated efficacy and safety in our cohort of TDT patients. Response rate was similar to that of HC. Nevertheless, antibody titers in TDT patients were significantly lower than in HC. Further observations are ongoing to assess duration of response, efficacy and possible factors influencing this finding. [Formula presented] Disclosures: No relevant conflicts of interest to declare.

Evaluation of systemic involvement of Coronavirus disease 2019 through spleen; size and texture analysis

Background/aim: To investigate the changes in the spleen size, parenchymal heterogeneity, and computed tomography (CT) texture analysis features of patients diagnosed with Coronavirus disease 2019 (COVID-19) Materials and methods: The size and parenchymal structure of the spleen in 91 patients who underwent thoracic CT examination due to COVID-19 were evaluated. For the evaluation of parenchymal heterogeneity, CT texture analysis was performed using dedicated software (Olea Medical, France). The texture analysis of each case consisted of 15 first-order intensity-based features, 17 gray level co- occurrence matrix-based features, and 9 gray level run length matrix-based features. Results: A total of 91 patients (45 males, 46 females) with a mean age of 54.31 ± 16.33 years (range: 18­81) were included in the study. A statistically significant decrease in spleen size was seen in the follow-up CT examinations (p < 0.001) whereas no statistically significant difference was found between the Hounsfield unit (HU) values. The radiomics consisted of first-order intensity-based features such as 90th percentile, maximum, interquartile range, range, mean absolute deviation, standard deviation, and variance, all of which showed statistically significant differences (p-values: < 0.001, < 0.001, 0.001, 0.003, 0.001, 0.001, and 0.004, respectively). "Correlation" as a gray level co-occurrence matrix-based feature and "gray level nonuniformity" as a gray level run length matrix-based feature showed statistically differences (p-values: 0.033 and < 0.001, respectively). Conclusions: Although COVID-19 manifests with lung involvement in the early stage, it can also cause systemic involvement, and the spleen may be one of its target organs. A decrease in the spleen size and parenchymal microstructure changes can be observed in the short follow-up time. It is hoped that the changes in the parenchymal microstructure will be demonstrated by a noninvasive method: texture analysis.