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.
In this study the investigators will evaluate the effect of high-dose, intermittent sunitinib versus treatment with lomustine in patients with recurrent glioblastoma multiforme. The investigators hypothesize that sunitinib, when given in a high-dose, intermittent schedule, will achieve adequate concentration levels in the tumor and will, besides its anti-angiogenic properties, inhibit gliomagenesis by inhibition of multiple kinases.
Repetitive bilateral (left cathodal/ right anodal) transcranial Direct Current Stimulation (tDCS) over the dorsolateral prefrontal cortex (DLPFC) reduces craving and seems to decrease relapse risk in addiction. However, little is known about the relapse rates in cocaine addiction after tDCS, despite the need for neurobiological treatments to reduce the high relapse rates in this population. The current study explores the effects of repetitive tDCS in a larger sample (N=60) of cocaine addicted patients on number of relapse days after three months. We expect that a decrease in relapse risk after tDCS is associated with cognitive control functioning. Therefore, risky decision making and inhibitory control will be measured before and after the interventions, and at three months follow-up. Ecological momentary assessment (EMA) will be used as a reliable measure for relapse, craving and mood.
This is a Phase III, multicenter, randomized, placebo-controlled, double-blind study to evaluate the efficacy and safety of atezolizumab versus placebo in participants with RCC who are at high risk of disease recurrence following nephrectomy.
Radiotherapy (combined with chemotherapy) is increasingly applied in the curative treatment of tumours located in the thoracic region (esophageal cancer, lung cancer, breast cancer, and (non) Hodgkin lymphoma). Accurate radiotherapy planning and delivery is essential for the treatment to be effective. However, this accuracy is compromised by tumour and organ motion. Radiotherapy treatment planning is typically performed on a planning-CT scan recorded several days prior to commencement of radiotherapy. Inter-fraction set up variations and organ motion during treatment can lead to differences between the calculated dose distribution on the planning-CT and the radiation dose actually received by the tumour and normal organs. Accurate assessment of these effects is essential to determine optimal margins in order to irradiate the tumour adequately while minimizing the dose to the organs at risk (OARs). In the near future, patients with esophageal cancer, lung cancer, breast cancer and (non) Hodgkin lymphoma are excellent candidates for proton beam therapy (PBT), which enables marked reductions of the radiation dose to the OARs and thus decreasing the risk of radiation induced cardiac and lung toxicity. However, for PBT using pencil beam scanning (PBS), knowledge of tumour and organ motion will be even more important. The potential major advantages of PBS for tumours in the thoracic region are challenged by the respiratory motion of the tumour, breast, esophagus, diaphragm, heart, stomach, and lungs. Setup errors and inter- and intra-fraction organ motion cause geometric displacement of the tumours and normal tissues, which can cause underdosage of the target volumes and overdosage of the organs at risk. Furthermore, it can result in changes in tissue densities in the beam path, which can alter the position of the Bragg peaks and lead to distorted dose distributions. If pencil beam scanning techniques are used to treat moving tumours, there is interplay between the dynamic pencil beam delivery and target motion. This phenomenon can cause additional deterioration of the delivered dose distribution, usually manifesting as significant local under and/or over dosage. It is therefore essential to incorporate motion-related uncertainties during treatment planning. The main objective of this study is to evaluate the impact of inter-fraction tumour and organ motion - while taking into account intra-fraction movements appropriately - on photon and proton radiotherapy treatment planning in order to yield robust intensity modulated photon and/or proton treatment plans. Objective: To evaluate the impact of inter-fraction tumour and organ geometrical dislocation for moving tumours on photon and proton radiotherapy treatment plans in order to create robust intensity modulated photon- and/or proton treatment plans. Study design: Pilot-study (80 patients). Study population: Patients with esophageal cancer (EC), (non) small cell lung cancer ((N)SCLC) stage III, breast cancer, or (non) Hodgkin lymphoma who will be treated with radiotherapy (with or without chemotherapy) with curative intent. Intervention (if applicable): Not applicable. Main study parameters/endpoints: Robustness parameters (homogeneity index; coverage of clinical target volume), dose to organs at risk (OARs), such as the heart (mean heart dose, MHD) and the lungs (mean lung dose, MLD). Nature and extent of the burden and risks associated with participation, benefit and group relatedness: During the radiotherapy treatment course, patients will undergo weekly repeat planning CT scans in treatment position without contrast agents in order to evaluate the impact of inter-fraction tumour and organ motion. Furthermore, additional CBCTs are collected after 10 radiotherapy fractions to assess the intra-fraction motion. The additional radiation dose of these 3-6 4D-CT's and 10 CBCTs is low (4-6 x 25-30mSv + 10 x 7mSv results in an effective dose < 250mSv) compared to the therapeutic radiation dose (40-60Gy). The risks are therefore negligible and the burden is low.
All randomised patients with Charcot-Marie-Tooth Type 1A (CMT1A) who completed the primary study CLN-PXT3003-02, i.e. treatment with PXT3003 or placebo, are eligible to continue in the extension study CLN-PXT3003-03. Period 1: Patients randomised to PXT3003 dose 1 or placebo in the primary study (CLN-PXT3003-02) continued in the extension study on PXT3003 dose 1 (5 mL). Patients randomised to PXT3003 dose 2 (5 mL) in the primary study (CLN-PXT3003-02) continued in the extension study on PXT3003 dose 2 or PXT3003 twice dose 1 (2x5 mL). Period 2: All patients continue on twice dose 1 (2X5mL).
The study compares two lengths of medication therapy (a shortened versus a prolonged dual antiplatelet therapy) in order to prevent thrombus (blood cloth) formation after the successfully treatment for coronary heart disease with a drug covered stent (metallic tube). This comparison will be done in patients who, compared to the average patient, are more likely to suffer from complications on antiplatelet therapy (bleeding). Both durations are within the current medical recommendations. The aim of this study is to help improve further standard antiplatelet duration guidelines.
This study aims to investigate safety and efficacy of Occlutech® AFR device in patients with severe pulmonary hypertension (PH).
Radiotherapy (combined with chemotherapy) is commonly used in the curative treatment of pelvic tumours, such as in cervical, vulvar and anal cancer. In these patients, cure rates are high but may be associated with significant treatment-related toxicities, especially dermatologic, gastrointestinal, genitourinary and hematologic toxicity. Accurate treatment planning and dose delivery is essential for radiotherapy in order to be effective in terms of local tumour control and to reduce radiation-induced side effects. However, accuracy is challenged by tumour and organ motion from fraction to fraction (interfraction movements). At present, radiotherapy treatment planning is typically performed on one planning-CT scan which is performed before the start of the treatment. However, interfraction set up variations and organ motions can lead to differences between the calculated dose distribution on the planning-CT and the radiation dose actually received by the tumour and normal organs (actual given dose). Current photon radiotherapy of the pelvic area is relatively insensitive to these changes and margins from CTV to PTV ensures an adequate dose coverage of the tumour area. Despite newer techniques in photon therapy, like intensity modulated radiotherapy (IMRT), critical organs still receive a substantial amount of dose leading to clinically relevant acute and late side effects. With proton beam therapy, the amount of radiation dose to the organs at risk can be significantly reduced. For proton beam therapy (PBT) however, knowledge of tumour and organ motion will be more important. The major potential advantages of PBT for tumours in the pelvic area in terms of prevention of radiation-induced side effects are challenged by differences in bladder volume, rectal filling and air gaps especially in the small bowel, sigmoid and rectum. Setup errors and organ motion cause geometric displacement of the tumours and normal tissues, which deteriorates the dose gradients from target volume to normal tissue. Furthermore, it can result in changes in tissue densities in the beam path, which can alter the position of the Bragg peaks, in turn leading to distorted dose distributions, usually manifesting as significant local under and/or over dosage. In this study, the investigators want to evaluate the impact of inter and intrafractional tumour and organ motion on photon and proton radiotherapy treatment planning in order to create robust intensity modulated photon- and/or proton treatment plans (IMRT, IMPT) with the final aim to lower treatment related toxicity. Objective: To explore the extent of inter- and intrafraction anatomical changes of the tumour and surrounding normal tissues, throughout the full course of treatment, and to subsequently assess the impact of these changes on the nominal planned dose. This information is required to design robust treatment plans (photon and/or proton) that will ensure optimal local tumour control while reducing toxicity. Study design: Pilot-study (40 patients). Study population: Patients with cervical, vulvar or anal cancer, who are planned for radiotherapy (with or without chemotherapy) with curative intent. Intervention (if applicable): Not applicable. Main study parameters/endpoints: Robustness parameters (homogeneity index; coverage of clinical target volume), dose to organs at risk (OARs), such as the small bowel, rectum, bladder and bone marrow. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: During the radiotherapy treatment course, patients will undergo weekly repeat planning CT scans without contrast agents in order to evaluate the impact of intra and inter-fraction tumour and organ motion. The additional radiation dose of these 5 extra CT's is relatively low (5 x 8 mSv, plus 1 x 22 mSv for the 4D CT scan) in relation to the therapeutic radiation dose (50.4-85 Gy). The risks are therefore negligible and the burden is low.
Rationale: Autologous epidermal cell suspension grafting is an effective method of surgical treatment in vitiligo, which is suitable for treating large areas with good cosmetic results. The RenovaCell Autologous Cell Harvesting Device (Avita Medical Europe Limited, Cambridge, UK) (previous name: ReCell) is a device which, compared to other forms of autologous epidermal cell suspension grafting, is easier in use showing similar results. Efficacy and safety of the ReCell device was proven in segmental vitiligo and piebaldism. However, the efficacy in non-segmental vitiligo is not yet confirmed in randomized controlled trials. The investigators hypothesize that grafting using the ReNovaCell device in combination with standard of care is also effective in stable non-segmental vitiligo and more effective than standard of care alone. Objective: Primary: to assess the efficacy and safety of ReNovaCell grafting combined with 311 nm UVB therapy and topical anti-inflammatory therapy for the treatment of stable non-segmental vitiligo. Secondary: to assess, satisfaction, cosmetic acceptability, noticeability and persistence of repigmentation after ReNovaCell transplantation. Study design: Prospective, observer-blinded, randomised, within subject, controlled, study. Study population: 20 patients ≥ 18 years with stable non-segmental vitiligo receiving standard of care (311 nm UVB therapy and topical anti-inflammatory therapy) for at least 6 months at the Netherlands Institute for Pigment Disorders (NIPD) at the Academic Medical Centre, University of Amsterdam. Intervention: In patients already receiving standard of care (311 nm UVB therapy + topical anti-inflammatory therapy) 2 comparable depigmented regions are randomised to receive ReNovaCell grafting or no grafting. Standard of care will be given according to the standard treatment protocol of our institute. Main study parameters/endpoints: Primary outcome: Objective assessment of the degree of repigmentation three and six months after ReNovaCell grafting with a digital image analysis system. To assess the pigmentation, the contours of pigmentation are copied on a transparent sheet before, three and six months after treatment, after which the sheets are scanned and digital image analysis is used to compute the affected surface. By comparing pre- and post-treatment pictures, the relative surface showing repigmentation expressed as percentage of the selected treated patch is computed. Secondary outcomes: - Patient Reported Outcomes: satisfaction, cosmetic acceptability, noticeability - General patient assessed outcome per treatment region on a scale from 0-3 (poor, moderate, good or excellent). - Visual assessment of percentage repigmentation by blinded observer and color match to normal skin - Visual assessment of side effects per treatment region (hyperpigmentation, hypopigmentation and scarring on a scale from 0-3) by a blinded investigator. - A small amount of the suspension of the included patients and the redundant lesional punchgrafts of all patients will be used for flow cytometric analyses of the cellular composition of the grafted cell suspension, and expression analysis of melanin synthesis-related genes. These data will be correlated to the clinical data. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: As the study involves large depigmented lesions, which are too large to treat in regular surgical treatment (punch grafting), patients will not miss any regular treatment. The time investment for the patient will be approximately 20 minutes for the punchgrafting session, 75 minutes for the cell suspension grafting session and 15 minutes for the three follow-up visits. Two of the five visits are part of the standard of care UVB follow-up regimen and are therefore not additional due to the study. Infection in the grafted area or the donor site may occur but is very rare; the risk of mild textural changes in the donor site is moderate. Hyperpigmentation of the treated area does occur often, although this improves over time in most cases. In case of improvement of the depigmentation, patients may receive another treatment for the (contralateral) untreated side.
The purpose of this study is to assess the efficacy of voclosporin compared with placebo in achieving renal response after 52 weeks of therapy in subjects with active lupus nephritis.