There are about 25560 clinical studies being (or have been) conducted in Germany. 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.
Cluster headache is a primary headache condition characterized by clusters of one-sided, high-intensity pain attacks. The headache may be episodic or chronic. Treatment options are limited and their effects unsatisfactory. An important nerve pathway involved in the pain attacks has a switching station at the sphenopalatine ganglion (SPG) located in the depth of the facial bones. SPG is a known therapy target for cluster headache. The area can be identified on CT images, but is difficult to access due to its location. Thus, the Multiguide navigation system has been developed to enable precise delivery of the drugs that target SPG activity. In Trondheim, two phase 1 / Phase 2 study have been carried out using botulinum toxin A (Botox®) against SPG in patient with chronic cluster headache and chronic migraine. The results indicate that such a treatment strategy is safe and beneficial. The current study is a randomized, placebo-controlled, triple-blinded study to investigate whether precise single-injection of botulinum toxin A reduces the frequency of attacks in chronic cluster headache .
This study aims to investigate changes in functional connectivity over a four week treatment course with intermittent theta burst stimulation (iTBS) in patients with major depressive disorder (MDD). To this end, seven weekly resting-state fMRI (rs-fMRI) scans at 7 tesla (7T) will precede, accompany and follow the iTBS treatment course. By obtaining several samples of the modulatory effects of iTBS on functional connectivity networks and simultaneous measurements of the depressive symptoms it will be possible to assess the time course of changes in connectivity across different networks, and to assess the overall relationship between the network modulation and the antidepressant effects of the treatment over time.
This study aims to gain a better understanding of metabolic early changes in neurodegenerative diseases, in order to enable new diagnostic and therapeutic approaches in the future. Further, it aims to identify specific movement-induced changes at the cerebral level, on cognition, on quality of life and physical fitness, and on serology parameters in neurodegenerative diseases. In general, valid biomarkers are needed for early diagnosis and prediction of disease progression. It has been hypothesized that metabolic changes may precede structural changes and may be examined by intervention with exercise therapy. The non-invasive, in vivo characterization and diagnosis of such metabolic changes is therefore of paramount importance. In this line, this research project is focused on applying magnetic resonance imaging (MRI) based metabolic imaging techniques such as sodium MRI and phosphorus magnetic resonance spectroscopy (MRS) with standard structural and functional MRI methods, combined with exercise training, in order to detect biomarkers early in different stages of neurodegenerative diseases. Moreover, this project aims to examine the sensitivity of metabolic imaging with sodium and phosphorus sequences over classical MRI imaging with whole body fat sequences, in order to detect cerebral alterations. At the end, the medical benefit of the planned project lies in the fact that the expected findings are groundbreaking for the understanding of the phenomenology and pathobiology of neurodegenerative diseases. This is the basis for the development of new methods for early diagnosis and individualized medicine with the optimization of future treatment options.
To investigate the influence of preoperative fluid and food intake in cardiac surgery patients on the development of postoperative AKI.
This is a prospective multicenter observational trial. Included patients and attending physician complete a standardized questionnaire.
INNODIA is a global consortium linking 26 academic institutions, 4 industrial partners, a small to medium enterprise (SME), and 2 patient organisations, bringing their knowledge and experience together with one common goal: "To fight type 1 diabetes". (www.innodia.eu). The project, approved in November 2015 and launched in January 2016, runs under the framework of the Innovative Medicines Initiative - Joint Undertaking (https://www.imi.europa.eu/projects-results/project-factsheets/innodia) with a dedicated governance structure ensuring close interaction, communication and adherence to the objectives and deliverables of the consortium. The overall aim of INNODIA is to advance in a decisive way how to predict, stage, evaluate and prevent the onset and progression of type 1 diabetes (T1D). For this, INNODIA has established a comprehensive and interdisciplinary network of clinical and basic scientists, who are leading experts in the field of T1D research in Europe, with complementary expertise from the areas of immunology, Beta-cell biology, biomarker research and T1D therapy, joining forces in a coordinated fashion with industry partners and two foundations, as well as with all major stakeholders in the process, including regulatory bodies and patients with T1D and their families. One of the objectives of INNODIA is to develop a new European clinical research network with standardized protocol based on repeated measures of C-peptide (including home measurements) and comprehensive collection of appropriate biological samples for 'omics', immune, viral and microbiome studies in new onset T1D patients and high-risk auto-antibody positive subjects. A protocol for the harmonization of sample collections in newly diagnosed type 1 diabetic patients and first degree relatives of patients with type 1 diabetes was developed following extensive preliminary work involving partners from across all specialities. Core laboratories with experience in their respective field were set up for analysis of auto-antibodies, fresh immune cells, handling of frozen immune cells, C-peptide measures. A series of standard operating procedures for sample collections and analysis were agreed. Sample tracking between clinical centres and central laboratories was included into a purposely designed electronic case report form (eCRF) into which all clinical and laboratory data collected are captured.
Anterior cruciate ligament (ACL) rupture is one of the most common musculoskeletal injuries in young individuals, particularly those that are active in sports. Up to 30% of individuals under the age of 20 years suffer a re-injury to the reconstructed ACL. Revision ACLR has been associated with degeneration of the articular cartilage and increased rates of meniscal tears, increasing the risk of post-traumatic osteoarthritis (PTOA), additional surgical procedures, reduced physical function and quality of life. As such, strategies to reduce ACLR failure, particularly in young active individuals, are critical to improving short and long-term outcomes after ACL rupture. There is ongoing debate about the optimal graft choice and reconstructive technique. Three autograft options are commonly used, including the bone-patellar-tendon-bone (BPTB), quadriceps tendon (QT) and hamstring tendon (HT). Additionally, a lateral extra-articular tenodesis (LET) may provide greater stability to the ACLR; however, its effect on failure rate is unclear and surgery-induced lateral compartment OA is a concern. To definitively inform the choice of autograft and the need for a LET, this multicenter, international randomized clinical trial will randomly assign 1236 young, active patients at high risk of re-injury to undergo ACLR using BPTB or QT autograft with our without LET.
The Hamburg City Health Study (HCHS) is a large, prospective, long-term, population-based cohort study and a unique research platform and network to obtain substantial knowledge about several risk and prognostic factors in major chronic diseases.
The purpose of this study is to evaluate the safety, tolerability, pharmacokinetics, and efficacy of ponatinib in children aged 1 to < 18 years with advanced leukemias, lymphomas, and solid tumors.
The aim of the study is to investigate whether intensive speech-language therapy (SLT) combined with anodal transcranial direct current stimulation (tDCS) leads to better communication performance than SLT combined with placebo stimulation (using sham-tDCS).