Subcutaneous C.E.R.A. for the Maintenance Treatment of Anemia in Pediatric Patients With CKD: A Phase 2, Open-Label, Single-Arm, Multicenter Study.

RATIONALE & OBJECTIVE: The optimum starting dose of intravenous continuous erythropoietin receptor activator (C.E.R.A.) has been previously determined; this study ascertains the optimum starting dose of subcutaneous C.E.R.A. administration in pediatric patients. STUDY DESIGN: Phase 2, open-label, single-arm, multicenter study. SETTING & PARTICIPANTS: Patients aged 3 months to 17 years with renal anemia and chronic kidney disease (CKD; including those treated with maintenance dialysis and those not treated with dialysis) who were receiving maintenance treatment with erythropoiesis-stimulating agents (ESAs). INTERVENTION: Subcutaneous C.E.R.A. administration every 4 weeks (starting dose was based on defined conversion factors). OUTCOME: The primary outcome was the change in hemoglobin concentration between the baseline and evaluation period for each patient. Secondary efficacy measures and safety were also evaluated. RESULTS: Forty patients aged 0.4-17.7 years were enrolled. The study achieved its primary outcome: the mean change in hemoglobin concentration was an increase of 0.48g/dL; the 95% confidence interval (0.15-0.82) and standard deviation (±1.03) were within the prespecified boundaries (-1 to 1g/dL and<1.5g/dL, respectively). Mean hemoglobin concentrations were maintained within the target 10-12g/dL range in 24 of 38 patients and within±1g/dL of the baseline in 19 of 38 patients, and the median C.E.R.A. subcutaneous dose decreased over time. Efficacy in key subgroups (age group, dialysis type, prior ESA treatment) was consistent with the primary outcome. Thirty-eight patients completed the core period; 25 chose to enter the safety extension period. Safety was consistent with prior studies, with no new signals. LIMITATIONS: Single-arm and open-label study; small sample size. CONCLUSIONS: Pediatric patients with anemia secondary to CKD who were on, or not on, dialysis could be safely and effectively switched from maintenance ESAs to subcutaneous C.E.R.A. administered every 4 weeks, using defined dose-conversion factors to determine the optimum starting dose. FUNDING: F. Hoffmann-La Roche Ltd. TRIAL REGISTRATION: The SKIPPER trial registered at ClinicalTrials.gov with study number NCT03552393. PLAIN-LANGUAGE SUMMARY: Anemia, a complication of chronic kidney disease, is associated with poor quality of life and an increased risk of hospitalization and mortality. The current treatments for anemia include iron therapy and erythropoiesis-stimulating agents (ESAs); however, the relatively short half-lives of the ESAs epoetin alfa/beta or darbepoetin alfa may require more frequent dosing and hospital visits compared with the ESA known as continuous erythropoietin receptor activator (C.E.R.A.). A previous study demonstrated that children aged 5 years or more with anemia associated with chronic kidney disease who were on hemodialysis could be switched to intravenous C.E.R.A. from their existing epoetin alfa/beta or darbepoetin alfa treatment. This study provides evidence that subcutaneous C.E.R.A. can safely and effectively treat anemia in children, including those aged<5 years and regardless of whether they were on dialysis or the type of dialysis they received (peritoneal dialysis or hemodialysis).

Model-based approach for methoxy polyethylene glycol-epoetin beta drug development in paediatric patients with anaemia of chronic kidney disease.

AIMS: Methoxy polyethylene glycol-epoetin beta (continuous erythropoietin receptor activator, C.E.R.A.) is used for the treatment of anaemia in adults with chronic kidney disease (CKD). Patients treated with shorter-acting erythropoiesis-stimulating agents up to three times weekly can be switched to once-monthly C.E.R.A.. Doses can be adjusted on a monthly basis based on haemoglobin (Hb) levels during the preceding period. A model-based approach was applied to optimise C.E.R.A. development, more specifically the confirmatory trial of the paediatric plan. METHODS: Pharmacokinetic and pharmacodynamic data from a phase II paediatric study and phase II and III adult studies were analysed together using modelling and simulation to determine the pharmacokinetic/pharmacodynamic characteristics of C.E.R.A. in a broad population. Model-based simulations of C.E.R.A. treatment outcomes in paediatric patients were performed, notably when administered subcutaneously and compared to clinical and real-world data. RESULTS: Age and body weight explained differences in pharmacokinetics, while the pharmacodynamic characteristics of C.E.R.A. were similar between adult and paediatric populations. Simulated Hb levels (mean and 95% prediction interval 10.9 [10.6, 11.2] g dL-1 ) and C.E.R.A. doses (median and 95% prediction interval 105 [72, 159] µg) 20 weeks after switching to subcutaneous C.E.R.A. were confirmed by observed real-world data from International Pediatric Dialysis Network registries (mean Hb was 10.8 g dL-1 and median C.E.R.A. dose was 100 µg). CONCLUSIONS: These analyses have facilitated optimisation of the C.E.R.A. development programme in paediatric patients with anaemia of CKD to provide this patient population with faster access to the drug while avoiding unnecessary clinical trial exposure and related monitoring burden in children.

Effects of the dual peroxisome proliferator-activated receptor-α/γ agonist aleglitazar on renal function in patients with stage 3 chronic kidney disease and type 2 diabetes: a Phase IIb, randomized study.

BACKGROUND: Type 2 diabetes is a major risk factor for chronic kidney disease, which substantially increases the risk of cardiovascular disease mortality. This Phase IIb safety study (AleNephro) in patients with stage 3 chronic kidney disease and type 2 diabetes, evaluated the renal effects of aleglitazar, a balanced peroxisome proliferator-activated receptor-α/γ agonist. METHODS: Patients were randomized to 52 weeks' double-blind treatment with aleglitazar 150 µg/day (n=150) or pioglitazone 45 mg/day (n=152), followed by an 8-week off-treatment period. The primary endpoint was non-inferiority for the difference between aleglitazar and pioglitazone in percentage change in estimated glomerular filtration rate from baseline to end of follow-up. Secondary endpoints included change from baseline in estimated glomerular filtration rate and lipid profiles at end of treatment. RESULTS: Mean estimated glomerular filtration rate change from baseline to end of follow-up was -2.7% (95% confidence interval: -7.7, 2.4) with aleglitazar versus -3.4% (95% confidence interval: -8.5, 1.7) with pioglitazone, establishing non-inferiority (0.77%; 95% confidence interval: -4.5, 6.0). Aleglitazar was associated with a 15% decrease in estimated glomerular filtration rate versus 5.4% with pioglitazone at end of treatment, which plateaued to 8 weeks and was not progressive. Superior improvements in high-density lipoprotein cholesterol, low-density lipoprotein cholesterol and triglycerides, with similar effects on glycosylated hemoglobin were observed with aleglitazar versus pioglitazone. No major safety concerns were identified. CONCLUSIONS: The primary endpoint in AleNephro was met, indicating that in stage 3 chronic kidney disease patients with type 2 diabetes, the decrease in estimated glomerular filtration rate after 52 weeks' treatment with aleglitazar followed by 8 weeks off-treatment was reversible and comparable (non-inferior) to pioglitazone. TRIAL REGISTRATION: NCT01043029 January 5, 2010.

Contribution of PAR-1, PAR-4 and GPIbalpha in intracellular signaling leading to the cleavage of the beta3 cytoplasmic domain during thrombin-induced platelet aggregation.

Integrin alphaIIbbeta3 plays a pivotal role in platelet aggregation by binding to fibrinogen. The beta3 cytoplasmic domain of alphaIIbbeta3 interacts with cytoskeletal and signaling proteins and is cleaved by micro -calpain, a calcium regulated cysteine protease. In the present study, we have investigated in more detail the cleavage of the beta3 cytoplasmic domain during platelet aggregation induced by thrombin, TRAP-1 and TRAP-4. Our data show that beta3 is cleaved in all three cases. The time course of beta3 cleavage and the amount of cleaved beta3 depends on the way platelets are activated and on the complete activation of micro -calpain, with a maximum of 90% of cleaved beta3 obtained when thrombin is used. Furthermore, our results also show that the cleaved alphaIIbbeta3 is mainly distributed in the Triton soluble fraction, indicating its inability to bind to the cytoskeleton. Interestingly, in the absence of GPIbalpha or following inhibition of thrombin binding to GPIbalpha, there is a reduction in the thrombin-induced calcium flux, beta3 cleavage and micro -calpain activation. These results suggest that cleavage of the beta3 cytoplasmic domain by micro -calpain might be an important step regulating the link between the cytoskeleton and alphaIIbbeta3 during platelet aggregation, and that GPIbalpha could function as a cofactor for the complete activation of platelets by thrombin.