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.
This study is open to adults with small cell lung cancer and other neuroendocrine cancers. The study is in people with advanced cancer for whom previous treatment was not successful or no standard treatment exists. The purpose of this study is to find out how a medicine called BI 764532 gets distributed in the body and in tumours. Participants get BI 764532 when starting treatment. In the first weeks, doctors check how BI 764532 is taken up in tumours by means of an imaging method. If there is benefit for the participants and if they can tolerate it, the treatment is given up to the maximum duration of the study. During this time, participants visit the study site regularly. The total number of visits depends on how they respond to and tolerate the treatment. Doctors record any unwanted effects and regularly check the general health of the participants.
Our primary objective is to design a cohort to determine the treatment outcome of different surgical interventions of the degenerative lumbar spine highlighting the expediency and value of the current surgical treatment program.
The first primary objective is to assess the effect of three intra-arterial administrations of autologous mesoangioblasts (MABs) with respect to improving muscle strength and reduce fatigue of the treated biceps brachii (BB) compared to the untreated BB. The second primary objective is safety of three intra-arterial administrations of autologous MABs, which the investigators will assess by monitoring (serious) adverse events ((S)AEs), blood flow in left arm pre- and post-intervention, and neurological vital signs during 8h post-intervention observation in the hospital. Secondary objectives are to assess changes in muscle mass of the treated and untreated BB muscle, and microscopic changes and m.3243A>G mutation load at tissue level in treated biceps brachii (BB) muscle at baseline and after treatment. Up to 20 adult m.3243A>G patients will undergo a ~30mg m. biceps brachii muscle biopsy at visit 1. The first six eligible patients will enroll the clinical study based on their m.3243A>G mutation load in skeletal muscle (50-90%) and mesoangioblasts (<10%), and on a decreased BB muscle strength and increased fatigue. These 6 selected patients will visit the Maastricht University Medical Center for 8 additional times. From each patient, during visit 2 till 9: - BB muscle biopsies of the left arm will be collected (1x ~130 mg at visit 2 and 1x ~30mg at visit 9) - MRI of the BB muscles in both arms will be performed (visit 2 and 9). - Autologous MABs will be injected into the left arm via axillary artery delivery. Angiography will be performed before and after infusion to assess vascular obstructions, and the participant will be monitored in the hospital for 8 hours (visit 4,6,8). - Tc99m macroaggregated albumin (MAA) is infused to quantify blood flow to the BB muscle (visit 4). - A bout of maximal eccentric exercise of BB muscles on both sides will be executed at visit 3, 5 and 7. - BB muscle strength will be assessed using a Biodex dynamometer (visit 3-9) - venous blood samples will be taken for assessing muscle damage and inflammation markers (visit 3-9), kidney functioning, coagulation and viral screening (visit 1 and 2).
Post-surgical (bacterial) infections are the most frequent post-surgical complications, including deep or superficial wound infections, urinary tract infections, pneumonia, and even sepsis. Approximately 6.5-25% of all surgical patients will develop any type of bacterial infection. To personalize surgical infection management, (Artificial Intelligence) models are in the making to predict which patients are at high or low risk of developing a post-surgical infection. In order to benchmark these prediction models to the predictive capabilities of surgeons, the investigators aim to investigate the performance of surgeons in predicting the risk of a patient developing (any type) of post-surgical infection within 30 days.
The goal of this clinical trial is to test a new Shigella vaccine (InvaplexAR-DETOX) in combination with a new adjuvant (dmLT) in healthy participants. The main questions it aims to answer are: - Is the new Shigella vaccine (with and without the new adjuvant) safe and well tolerated? - How wel does the new Shigella vaccine stimulate the immune system in combination with the new adjuvant, and without the new adjuvant? Participants will receive three vaccinations at 28-day intervals. Researchers will compare the results of participants vaccinated with the vaccine in combination with the adjuvant to the results of participants vaccinated with the vaccine only and to the results of participants vaccinated with a placebo (fake vaccine).
The goal of this monocenter randomized pilot study is to investigate the usability of the ADEPTH sensor for bore depth measurements in plate osteosynthesis procedures. The main question it aims to answer is: - What is the usability score of the ADEPTH sensor for bore depth measurements during plate osteosynthesis procedures? Participants will receive either bore depth measurements with the ADEPTH sensor or with the manual depth gauge.
The investigators designed an observational multicenter explorative in vivo study to investigate the changes in ceftriaxone pharmacokinetics in blood and ascites. The investigators will include a total of 20 patients with liver cirrhosis admitted to the ward of participating hospitals. Patients are eligible when receiving ceftriaxone and concomitantly receive paracentesis. The investigators will collect all available waste blood samples of each participant, starting from study entry up until 48 hours after the last dosing interval of ceftriaxone. The investigators will collect all available waste ascites samples of each participant up until 48 hours after the last dosing interval of ceftriaxone. Duration of the trial: The study duration is variable and depends on the duration of ceftriaxone treatment and duration of hospital admission, which both are determined by the treating physician and is not influenced by study participation. Patients will be eligible for study inclusion when patients received (a single dose of) ceftriaxone treatment and undergo paracentesis during ceftriaxone treatment. The study will end 48 hours after the last dosing interval of ceftriaxone or until hospital discharge, whichever comes first. Study timeline: The investigators expect to enrol 1-2 participants every month. The total enrolment time will thus be approximately 12 months.
Bright Light Therapy (BLT) is a proven treatment for depression in seasonal and non-seasonal depressive disorders, as well as bipolar disorder. To make BLT more effective and practical in clinical settings and tailor it to individual needs, it is necessary to optimize the treatment approach, understand how the treatment works, and identify patient characteristics that predict response. This clinical trial has three main goals: - Optimize the administration of BLT for patients with depressive episodes. - Gain a deeper understanding of the treatment mechanisms. - Determine which patients benefit the most from the treatment. The specific objectives are as follows: - Investigate whether additional treatments and interventions related to lifestyle and the biological clock can enhance the effects of BLT. - Examine how BLT influences the body's internal clock and sleep quality, and how these factors contribute to the outcomes. - Identify patient characteristics and behaviours that can predict treatment outcomes. - Develop a brain model to better understand the impact of BLT on the brain. In this study, patients will receive BLT with a light intensity of 10,000 lux for 30 minutes each morning over 5 consecutive days. The treatment duration will range from one to three weeks, depending on the improvement of depressive symptoms. Participants will be randomly assigned to one of three groups: - Home - Patients will receive BLT at home, following the standard guidelines for light therapy in the Netherlands. - LightCafé, fixed time: Patients will receive BLT in a café-like setting called the LightCafé, where the focus is not only on symptom improvement but also lifestyle enhancements and fostering social connections. The treatment time will be the same every day. - LightCafé, varying time: Patients will also receive BLT at the LightCafé, with treatment timing varying each day. Additionally, this group will wear glasses in the evening that filter blue light. The study includes a baseline phase of up to two weeks, a treatment phase of up to three weeks, and a three-month follow-up phase. Patients will wear a motion watch to assess sleep-wake behaviour and physical activity during the day. Additionally, they will wear a broach that measures their personal light exposure throughout the day. Eight one-minute questionnaires per day will be sent to the participants' smartphones to assess vitality, sleep, and mood during the treatment. Predictors of treatment response, such as clinical characteristics, sleep measures, circadian parameters, and light-related behaviours, will be evaluated at baseline. In a small group of patients, salivary melatonin curves will be assessed before and after treatment. MRI scans will provide insights into functional and structural brain changes following light therapy treatment.
The purpose of this study is to test if treatment with tralokinumab is safe and effectful to treat moderate-to-severe atopic hand eczema. This will be judged by a range of assessments that rate the severity and extent of atopic hand eczema and its symptoms, as well as general health status and quality of life. The trial will last for up to 40 weeks. There will be up to 15 visits, 3 of which will be conducted by phone. The first part of the trial is called a screening period and will last up to 4 weeks. For the first 16 weeks after screening, trial participants will receive either tralokinumab or dummy injections every two weeks. After the first 16 weeks, all trial participants will receive tralokinumab injections every two weeks for 16 weeks. The last part of the trial is a period of 4 weeks after the end of treatment period, where trial participants are off the drug for safety follow-up.
The goal of this clinical trial is to evaluate the clinical use of [68Ga]Ga-FAPI-46 PET (positron emission tomography)/CT (computed tomography) imaging in patients with pancreatic or bile duct cancer. The study consists of three parts and patients can only participate in one part of the study. The main questions the study aims to answer are: - In part A: What is the best timing and scanprotocol of a [68Ga]Ga-FAPI-46 PET/CT scan? - In part B: Are the results of the simplified scan protocol repeatable? - In part C: What is the accuracy of [68Ga]Ga-FAPI-46 PET/CT to detect pancreatic cancer and is it able to detect the effect of chemotherapy on pancreatic cancer lesions? Participants in this study will be asked to undergo the following: - In part A: participants will undergo 1 [68Ga]Ga-FAPI-46 PET/CT scan and will have 2 venous canullas and 1 arterial cannula placed. - In part B: participants will undergo 2 [68Ga]Ga-FAPI-46 PET/CT scans and will have a venous cannula placed for each scan. - In part C: participants will undergo 2 [68Ga]Ga-FAPI-46 PET/CT scans and will have a venous cannula placed for each scan.