There are about 13446 clinical studies being (or have been) conducted in Belgium. The country of the clinical trial is determined by the location of where the clinical research is being studied. Most studies are often held in multiple locations & countries.
the study aim to assess the effect of INC280 on the pharmacokinetics of digoxin and rosuvastatin in patients with cMET-dysregulated advanced solid tumors
The primary objective of this study was to evaluate the safety, as assessed by incidence of dose limiting toxicity (DLT), of talimogene laherparepvec in combination with pembrolizumab in adults with recurrent or metastatic squamous cell carcinoma of the head and neck (SCCHN).
The purpose of this study was to demonstrate superiority of treatment with avelumab plus best supportive care (BSC) versus physician's choice (chosen from a pre-specified list of therapeutic options) plus BSC.
The main purpose of this study is to describe the safety and tolerability of 80 weeks of subcutaneous (SC) evolocumab when added to standard of care in children 10 to 17 years of age with familial hypercholesterolemia.
Part 1 (Phase Ib) Primary objective: To establish the maximum tolerated dose (MTD) of BI 836826 in combination with GemOx. Secondary objectives: To evaluate pharmacokinetics of BI 836826 when given in combination with GemOx and to investigate preliminary efficacy in terms of the overall response rate based on investigator's assessment. Part 2 (Phase II randomized) Primary objective: To investigate the efficacy by means of the overall response rate (PR+ CR) based on central review assessment in patients with relapsed DLBCL treated with BI 836826-GemOx compared to R-GemOx. Secondary objective: To investigate the efficacy by means of the complete remission rate based on central review assessment in patients with relapsed DLBCL treated with BI 836826-GemOx compared to Rituximab + gemcitabine + oxaliplatin (RGemOx).
Children with chronic kidney disease (CKD) suffer from one of the most devastating diseases in childhood resulting in a lifelong need for health care, and a 3 times decreased life expectancy. In addition, they have important comorbidities that negatively impact on their quality of life and integration in society, jeopardizing their future even after a potential transplantation. Retention of uraemic toxins is accepted to play a major role in the pathogenesis of the comorbid conditions, but studies in children are lacking. Furthermore, there are currently no good tools to evaluate severity and monitor adequacy of treatment, resulting in suboptimal management. The overall scientific objective of this four years UToPaed IWT-TBM project is to provide the clinician with new diagnostic and therapeutic tools for the management of children with CKD, based on the improved understanding of uraemic toxicity. In this first part of UToPaed, the investigators will associate concentrations of a wide variety of uraemic toxins with different comorbidities in CKD children, i.e. growth, protein-energy wasting, quality of life, cardiovascular risk factors, circadian rhythm, sleep quality, and psychosocial and neurocognitive functioning (i.e. cross-sectional and longitudinal). The toxins of which concentrations are best correlated with comorbidities during the progress of CKD and eventually have representative kinetics (UToPaed - part 2: Kinetic analysis) will be selected as markers. These markers will be, together with the comorbidities, further tracked after interventions, i.e. starting on dialysis, transplantation, changes in dialysis strategy (UToPaed - part 3 - intervention study). From the validated kinetic models (UToPaed - part 2 and 3), an open access user-friendly prediction simulator (PAEDSIM) based on patient characteristics and marker concentrations will be developed to optimise and individualise the dialysis therapy. By providing clinicians with more advanced and appropriate tools to improve management of all children with CKD, i.e. better assessment of the degree of renal dysfunction, better determination of the ideal time to start renal replacement therapy, and more accurate monitoring of dialysis adequacy, the investigators aim to improve neurocognitive and psychosocial functioning (short term), growth, maturation into puberty, and social integration (median term) and survival (long term).
The primary objectives of Parts A and B of this study are to evaluate the safety, tolerability, and pharmacokinetics (PK) of ascending doses of tofersen in adults with ALS and a documented superoxide dismutase 1 (SOD1) mutation. The primary objective of Part C of this study is to evaluate the clinical efficacy of tofersen administered to adults with ALS and a confirmed SOD1 mutation. The secondary objective of Parts A and B of this study is to evaluate the effects of tofersen on levels of total SOD1 protein in the cerebrospinal fluid (CSF). The secondary objectives of Part C are to evaluate the safety, tolerability, pharmacodynamic (PD), and biomarker effects of tofersen.
The purpose of this study is to assess the safety, tolerability, and pharmacokinetics of JNJ-55375515 in healthy participants after administration of single and multiple oral doses.
This will be a Phase I, randomized, double-blind, placebo-controlled, 2 period cross-over, drug-drug interaction study to evaluate the effect of multiple oral doses of GLPG1205 or placebo (daily from Day 1 to Day 12) on a single dose pharmacokinetic profile of a cocktail of CYP450 substrates administered to healthy male subjects. The cocktail of CYP450 substrates will consist of 10 mg warfarin (CYP2C9 substrate), 20 mg omeprazole (CYP2C19 substrate) and 100 mg caffeine (CYP1A2 substrate). Fourteen healthy male subjects will receive during two treatment periods from Day 1 to Day 12 a daily dose of GLPG1205 or placebo. On Day 13, a single dose of the cocktail of CYP450 substrates will be co-administered either with GLPG1205 or with placebo. The two treatment periods will be separated by a wash-out period of at least 28 days. Also, the safety and tolerability of multiple oral doses of GLPG1205 administered with or without a cocktail of CYP450 substrates in healthy male subjects will be evaluated.
The most important guideline for drug prescription concerning pregnant women is 'drugs should be given only if the maternal benefits outweigh the potential risk to the fetus'. However, poor data is available on maternal drug disposition and transfer through the placenta, so the evidence available for decision making in clinical practice is weak. An ex-vivo placenta perfusion model will be used to explore the mechanisms governing differences between fetal and maternal drug exposure. The expression of placental transporters and cytochrome P450 (CYP) enzymes will be investigated in primary placenta cell culture and placental biopsies from different gestational stages to learn how the placental drug transfer and disposition is regulated. The investigators choose to examine the transfer of paracetamol, erythromycin and azithromycin because these drugs are commonly used in human pregnancies and have different metabolic pathways.