Namodenoson, an A3 adenosine-receptor agonist, showed promising results in advanced hepatocellular carcinoma (HCC) and moderate hepatic dysfunction (Child–Pugh B; CPB) in a phase I/II clinical study. This phase II study investigated namodenoson as second-line therapy in such patients. Patients were randomized 2:1 to twice a day (BID) namodenoson (25 mg; n = 50) or placebo (n = 28). The primary endpoint (overall survival [OS]) was not met. Median OS was 4.1/4.3 months for namodenoson/placebo (hazard ratio [HR], 0.82; 95% confidence interval [CI] 0.49–1.38; p = 0.46). Pre-planned subgroup analysis of CPB7 patients (34 namodenoson-treated, 22 placebo-treated) showed a nonsignificant improvement in OS/progression-free survival (PFS). OS: 6.9 versus 4.3 months; HR, 0.81; 95% CI: 0.45–1.43, p = 0.46. PFS: 3.5 versus 1.9 months; HR, 0.89; 95% CI: 0.51–1.55, p = 0.67 (log-rank test). The difference in 12-month OS was significant (44% versus 18%, p = 0.028). Response rates were determined in patients for whom ≥ 1 assessment post-baseline was available (34 namodenoson-treated, 21 placebo-treated). Partial response was achieved by 3/34 (8.8%) and 0/21 (0%) patients, respectively. Namodenoson was well-tolerated, with a safety profile comparable to that of the placebo group. No treatment-related deaths were reported; no patients withdrew due to toxicity. In conclusion, namodenoson demonstrated a favorable safety profile and a preliminary efficacy signal in HCC CPB.
2503 Background: There is no established primary treatment for patients with advanced HCC and severe liver dysfunction (Child-Pugh B class; CPB), thus this representing a clear unmet need. Namodenoson, an A3AR agonist, showed promising preliminary results in this population in an open label phase 1/2 clinical study (NCT00790218), with median overall survival (OS) of 8.1 months. We present the results of a double blind, randomized phase 2, placebo-controlled study (NCT02128958), assessing the efficacy and safety of namodenoson as a second-line therapy of patients with advanced HCC and CPB class. Methods: Patients were randomized 2:1 to BID namodenoson (25 mg; n = 50) or placebo (n = 28) in 15 centers globally. Primary endpoint was OS and secondary endpoints were safety, progression-free survival (PFS), objective response (OR) and disease control rate (DCR). Assessment of OS and PFS was done by log rank test at a one final analysis when 75 deaths had occurred. Response was assessed by RECIST (local investigator) and mRECIST (central review). Results: The study did not meet the primary end point, with median OS 4.1 months (mo) for namodenoson vs. 4.3 mo for placebo (HR: 0.82). Pre-planned subgroup analysis of Child-Pugh 7 patients (n=56; namodenoson=34, placebo=21) showed median survival 6.8mo vs 4.3 mo [HR: 0.77 (95% CI 0.49-1.40)]. Similarly, for this subgroup of patients PFS was 3.5 mo vs 1.9 (HR=0.87). In terms of objective response, 3/34 patients assessed achieved OR (9%) with namodenoson vs 0% for placebo. Namodenoson was generally well-tolerated, with no treated patients being withdrawn for toxicity and no cases of treatment-related deaths. The most common adverse event (>10%) were anemia, abdominal pain, ascites, nausea, asthenia, fatigue, peripheral edema, and increased AST. Treatment-related grade 3 toxicities accounted for anemia, fatigue and hyponatremia. Conclusions: Namodenoson has demonstrated favorable clinical safety profile in patients with advanced HCC and severe liver dysfunction. Although the primary end-point was not met, the subgroup analysis showed a positive signal of efficacy for OS in patients with Child-Pugh 7. Both safety and efficacy results warrant testing this drug in a phase III trial. Clinical trial information: NCT02128958.
Modern economies are based on an efficient communications and transport infrastructure. In this context, road networks make an essential contribution to the movement of large quantities of raw materials, finished products as well as to human transport for productive or recreational purposes. In order to maintain the optimal functioning of the road infrastructure, it is necessary to ensure high quality lanes. Road construction and maintenance work play an important role in supporting the ideas mentioned above. The used equipment for production of asphalt pavements (asphalt concrete) and their maintenance are the subject of numerous studies, proving the interest for this field. The authors of paper: An Example for Determining the Physical Parameters Used in DEM (Discrete Element Method) Modelling for the Interaction Process between Aggregates and Working Equipment, present an example for determining physical parameters that are used in specific numerical modelling of operation equipment which interacts with structures (drum dryer, mixer for concrete production and milling machine for asphalt pavement). In order to model the real phenomena in which granular materials are involved (cereals, mineral aggregates, and other powdery substances) it is very important to use not only appropriate software but also to use primary data to accurately characterize the phenomena. The sizes that characterize the interaction between particles and between particles and the space in which they move are very important. The study covers any type of granular material of mineral origin, in particular mineral aggregates used in the manufacture of concrete, cement or asphalt.
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