There are about 13332 clinical studies being (or have been) conducted in Netherlands. 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.
A study designed to evaluate the safety of crovalimab with eculizumab in participants with PNH currently treated with complement inhibitors. This study will enroll approximately 190 participants.
This multicenter open-label randomized controlled trial is set up to evaluate the effect of fetoscopic laser surgery on the gestational age at birth for monochorionic twin pregnancies diagnosed with twin anemia-polycythemia sequence. Half op the patients will be treated with fetoscopic laser surgery, while the other half will be managed with standard treatment. The hypothesis is that fetoscopic laser therapy will improve neonatal outcome by prolonging pregnancy.
Currently, there is only limited data available on the functional immune changes after concurrent chemoradiation in NSCLC (non-small cell lung cancer) patients. Identifying the effect of the treatment on immune cells and what their functional consequences are is an essential first step to come to prognostic and predictive biomarkers. Many studies investigating the role of immunomodulatory effects of treatment are carried out in either in vitro or in vivo animal models. However, identified factors frequently hamper clinical validation. In addition, as mentioned earlier, although several immunogenic factors have been shown to be released by irradiated tumor cells, so far, only a limited number of studies searched for potential predictive and prognostic immunological biomarkers. This will be the first time that the immune effects of both treatment modalities will be studied, with, in addition, the immune changes during durvalumab treatment, which are also unknown at present. By getting more insight in the treatment-induced immunomodulatory effects, ultimately, in subsequent projects, this will allow to determine optimal immune stimulation and hence improved outcomes of subsequent durvalumab immune therapy.
Preterm infants often suffer from apnea of prematurity (AOP; a cessation of breathing) due to immaturity of the respiratory system. AOP can lead to oxygen shortage and a low heart rate which might harm the development of the newborn, especially the central nervous system. In order to prevent oxygen shortage, infants are treated with non-invasive respiratory support and caffeine. Despite these treatments, many preterm newborns still suffer from AOP and need invasive mechanical ventilation. Although this will result in complete resolution of AOP, invasive mechanical ventilation has the disadvantage of being a major risk of chronic lung disease and impaired neurodevelopmental outcome. Restrictive invasive ventilation is therefore advocated nowadays in preterm infants. Doxapram is a respiratory stimulant that has been administered off-label to treat AOP. Doxapram, as add-on treatment, seems to be effective in treating AOP and to prevent invasive mechanical ventilation. It is unclear if a preterm infant benefit from doxapram treatment on the longer term. This study compares doxapram to placebo and hypothesizes that doxapram will protect preterm infants from both invasive ventilation (and related lung disease) and AOP related oxygen shortage (and related impaired brain development).
In this study, we will assess the efficacy and safety of a reduced dose of thrombolytic therapy given in addition to low-molecular-weight heparin in patients with intermediate-high-risk acute pulmonary embolism. Half of participants will receive thrombolytic treatment, while the other half will receive a placebo.
To investigate the ability of machine learning models based on radiomic features extracted from thin-section CT images to differentiate IPF patients from non-IPF interstitial lung diseases.
This is a postmarket clinical follow up study on the safety and effectiveness of the Edwards PASCAL Transcatheter Valve Repair System and the Edwards PASCAL Precision Transcatheter Valve Repair System in transcatheter mitral valve repair.
This is a Phase I, multicenter, non-randomized, adaptive, open label, multiple ascending, intra-participant, dose-escalation study with an LTE part. The objective of the study is to investigate the safety, tolerability, PK and PD of RO7248824 in participants administered IT with AS. Two linked sets of dose escalation cohorts are planned based on two different age groups, namely participants with AS aged ≥ 5 to ≤ 12 years in cohorts A1 to A4 (with at least 2 participants ≤ 8 years old in each cohort) and AS participants aged ≥ 1 to ≤ 4 years in cohorts B1 to B5. The two sets of cohorts will be run in parallel, with each cohort A1-A4 preceding and gating the linked cohort B1-B5 (e.g., A1 precedes B1).
The purpose of the study is to learn whether the study drug (capmatinib) helps to control lung cancer better compared to a single agent chemotherapy (docetaxel) and whether it is safe when given to patients suffering from a particular type of lung cancer. This type of cancer is called non-small cell lung cancer (NSCLC) with certain specific genetic alterations (called mutations) of a gene called MET, within a specific part of the gene called exon 14.
The main objective of Part 1 of this trial is to investigate the absolute bioavailability of BI 1358894 with an intravenous microdose formulation containing labelled [C-14] BI 1358894 and an unlabelled oral tablet formulation of BI 1358894 in healthy male subjects. The main objective of Part 2 of this trial is to investigate the relative bioavailability of BI 1358894 administered as an oral suspension.