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.
Ap¬plications of CO2 insufflation for endoscopic procedures have been reported for the performance of routine colonoscopy, small bowel endoscopy, endoscopic retro¬grade cholangiopancreatography (ERCP) and endoscopic submucosal dissection in the upper and lower gastrointestinal tracts. These studies showed that CO2 insufflation reduces the post-procedural abdominal distension and pain without CO2 retention and adverse events. However, there has been no report on the safety and efficacy of CO2 insufflation in PEG procedures in adults or in children. In the present study, we would like to evaluate by randomized controlled trial: the safety of the CO2 insufflation during PEG and the inhibi¬tory effects of CO2 insufflation on bowel distension after PEG.
Prospective interventional study on duodenal neuro-immune interactions in healthy volunteers and functional dyspepsia patients and the effects of PPI
The investigators project is based on: - Assessment of bone architecture by high resolution peripheral scanner (HRpQCT) and bone densitometry (DEXA); - The non-invasive detection of vascular calcifications (by abdominal CT scanner) and bone abnormalities associated with kidney transplantation, as well as the analysis of evolution over time; - Longitudinal evaluation of nephrological clinical parameters (glomerular filtration rate, number and type of rejections, immunosuppressive medications) as well as biological and urinary parameters of mineral metabolism (parathormone, sclerostin, bone alkaline phosphatase) depending on the type and severity of bone abnormalities; - The evaluation of these nephrological clinical parameters and of the biological parameters of mineral metabolism depending on the extent and evolution of vascular calcifications but also on bone morphology; - The study of possible relationships between bone mass and muscle mass (and functioning)
The proposed study is an international randomized phase II, multicenter, open-label, three arms trial to assess best supportive care (BSC) vs OSE2101 and vs OSE2101 + pembrolizumab as maintenance treatment for patients with platinum sensitive relapsed ovarian cancers, previously treated with chemotherapy (regardless of the number of prior lines of platinum-based chemotherapy), bevacizumab (if eligible) and a PARP inhibitor (if eligible). Patients in Complete Response, Partial Response, or Stable Disease at the end of chemotherapy with at least 4 cycles of platinum based chemotherapy will be randomized in one of the three arms (randomization 1:1:2). They will receive one or the two study treatments or BSC until progression, or intolerance, or up to 2 years (from 1st study treatment dose).
The predictive value of the microbiome (throat swabs, stool and of bronchial samples) to identify patients who will relapse during durvalumab treatment after CRT (False negative Rate) at 6 months. Exploratory endpoints include the effects of antibiotic therapy before and during IO treatment on toxicity and response rate. The role of exhaled breath analysis in prediction of response and toxicity will also be investigated.
In spinal cord stimulation (SCS), most outcome data are based on patient questionnaires. The lack of tools for objective evaluation of the effects of SCS on chronic pain has posed a barrier for providing solid proof of the therapy. Currently, however, SCS-devices with an accelerator included are available on the market. The position orientation data provided by the neurostimulator therefore gives new possibilities for objective measurement of gross activity in daily life.
This is a pilot study with the aim to investigate the beneficial effect of bicarbonate buffered medium containing hyaluronan and recombinant human albumin (EmbryoGlue®, Vitrolife) in patients with documented repeated implantation failure on live birth per randomized subject as primary endpoint.
DCE-CT of thoracic tumors as an early biomarker for treatment monitoring in comparison with morphologic criteria. 1. Rationale of the clinical investigation For the evaluation of response to anti-tumoral therapy in thoracic tumors, merely morphologic information is often not sufficient for early response evaluation as dimensions of the oncologic lesions are not changing during the first weeks of treatment. To be able to measure functional changes, dynamic contrast-enhanced CT (DCE-CT) seems promising as a biomarker for early therapy monitoring. Having an early biomarker for treatment monitoring will allow to increase patients' prognosis if a non-responder is earlier detected, will optimize the use of expensive treatments, is expected to shorten hospitalization and shorten absence at work, and to decrease side-effects of (adjuvant) medication. 2. Objective of the study 2.1.Primary objectives The primary objective is to investigate the potential of functional imaging (i.e. DCE-CT), as analyzed by the Hyperfusion analytic software, as an early biomarker for the evaluation of therapy response in primary thoracic malignancy. 2.2.Secondary objectives There are two secondary objectives: 1. To define internal system parameters and perfusion parameter thresholds that maximize the accuracy of the outcomes and to define the correct category (PD, SD, PR, CR); and 2. To compare the predicted categorization to the assessed RECIST1.1 categorization. 3. Endpoints 3.1.Primary Endpoint The primary endpoint is to directly compare the biomarker of the HF analysis software at week 3 (+- 1 week) and week 8 (+- 3 weeks) with the eventually reported Progression-Free Survival (PFS) intervals and Overall Survival (OS) in this study. PFS intervals are determined by the clinician and are based on RECIST1.1 and additional clinical and biochemical progression markers. The focus will be on evaluating the accuracy of the prediction as well as how early the prediction was correct. 3.2.Secondary Endpoints There are two secondary endpoints corresponding to the two secondary objectives. 1. The internal parameters for the HF biomarker, e.g. magnitude of the Ktrans decrease, and the change in volume of unhealthy tissue, need to be determined to define the classification (PD, SD, PR and CR) by the HF analysis software. These parameters are optimized to optimally predict the classification according to PFS and OS. This will be done by splitting the data into a train and test set to ensure generalization. 2. The classification of the HF analysis software will be compared to the purely morphological classification by RECIST1.1 to identify correlation. Furthermore, some cases will be investigated where the HF analysis performs noticeably better or worse than RECIST1.1 in predicting PFS and OS. Finally, the difference in time to the first correct prediction is compared between HF and RECIST1.1. 4.Study Design This prospective study is part of the clinical β-phase. We aim to test pre-release versions of the Hyperfusion.ai software under real-world working conditions in a hospital (clinical) setting. It is important to note, though, that the results of the software analysis will not be used by interpreting physicians to alter clinical judgement during the course of the clinical trial. A prospective study including 100 inoperable patients in UZ Gent suffering from primary thoracic malignancy (≥15mm diameter) will be conducted. For this study, in total 3 CT scan examinations of the thorax will be performed (a venous CT examination of the thorax in combination with a DCE-CT scan of the tumoral region). All patients will be recruited from the pulmonology department. Oncologic patients are clinically referred with certain intervals for a clinically indicated CT scan (being part of standard care). In the study, two clinical CT examinations that are performed standard of care (baseline CT examination and CT examination at week 8 (+- 3 weeks) after start of systemic therapy) will be executed by also adding a DCE-image of the lung adenocarcinoma to this examination. This DCE-image is performed during the waiting time before the venous/morphologic phase. Consequently, from a clinical point-of-view, the time to scan remains exactly the same. With regard to the contrast agent, an identical amount is injected as is the case in standard of care, but the contrast bolus is split in two parts - see also addendum with DCE protocol. In this study there is one additional CT-examination (DCE-scan of the thoracic malignancy in combination with venous CT scan of the thorax) at week 3 (± 1 week).
The study is designed as an international, multicenter prospective cohort study. Patients with presumed glioblastoma (GBM) in- or near eloquent areas on diagnostic MRI will be selected by neurosurgeons. Patients will be treated following one of three study arms: 1) a craniotomy where the resection boundaries for motor or language functions will be identified by the "awake" mapping technique (awake craniotomy, AC); 2) a craniotomy where the resection boundaries for motor functions will be identified by "asleep" mapping techniques (MEPs, SSEPs, continuous dynamic mapping); 3) a craniotomy where the resection boundaries will not be identified by any mapping technique ("no mapping group"). All patients will receive follow-up according to standard practice.
Background: After a period of coma, patients with severe brain injury may present disorders of consciousness (DOC). A wide proportion of these patients also suffer from severe dysphagia. Assessment and therapy of swallowing disabilities of DOC patients are essential because dysphagia has major functional consequences and comorbidities. Dysphagia evaluation in patients with DOC is hampered by the lack of adapted tools. The first aim of the study was to develop a new tool, the SWallowing Assessment in Disorders Of Consciousness (SWADOC), and propose a validation protocol. The SWADOC tool has been developed to help therapists to apprehend components related to swallowing in patients with DOC. The second aim is to appreciate the relationship between patients' level of consciousness and SWADOC items and scores. Method/design: In this multicentric prospective cohort, 104 patients with DOC will be tested three times during two consecutive days with the SWADOC tool. Statistical analyses will focus on the reliability and validity of the SWADOC tool, especially the intra and inter-rater reliability, internal consistency, measures of dispersion and concurrent validity with the FOTT Swallowing Assessment of Saliva (FOTT-SAS). The level of consciousness will be assessed with the Simplified Evaluation of CONsciousness Disorders (SECONDs) and the Coma Recovery Scale-Revised (CRS-R) Discussion: The assessment of swallowing abilities among patients with DOC is the first necessary step towards the development of an individualized dysphagia care plan. A validated scoring tool will be essential for clinicians to better apprehend dysphagia in DOC patients and to document the evolution of their disorders.