There are about 9403 clinical studies being (or have been) conducted in Switzerland. 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.
The goal of this pragmatic pilot clinical trial is to test the feasibility of the trial in terms of the number of patients recruited in a given period. The main question it aims to answer is to assess the number of eligible patients and number of patients willing to participate per month. Participants will be followed either by the team of "transitional pain service" (intervention group) or by a surgeon or the general practitioner (standard care). Depending on individual risk factors, patients in the intervention group will be offered some targeted measures, for example: - hypnosis, - patient education, - evaluation by psychiatrist, - psychotherapy, - locoregional anesthesia, - anti-depressant treatment Participants (in both intervention and standard care groups) will be asked to answer some questions before surgery, during the first week following the surgery and six months after the surgery.
Over the years, the use of large diameter femoral heads has become increasingly common in orthopaedics due to the decreased risk of dislocation due to increased jumping distance and range of motion. The history of total hip arthroplasty does not favour large diameter heads, especially as conventional polyethylene has a high risk of wear. The development of hard-on-hard bearings (CoC) with a second generation ceramic material and the introduction of cross-linked PE have led to the reintroduction of this concept. The Mpact 3D Metal MonoCER cup was developed to offer the advantages of accommodating large diameter heads with an external metal cup with a pre-assembled system that avoids the surgical step of insert-cotile coupling.
This study evaluates if it is possible to identify quantitative parameters from audio signals to describe the changes in patient's state in relation to frailty and distress.
The Basel Long COVID Cohort Study (BALCoS) is a registry-based cohort study that focuses on the patients' present health status, symptoms, the course of these symptoms, and potential mechanisms involved. The project aims to investigate proposed mechanisms behind Post COVID-19 condition (PCC), including a) autoimmunity, b) chronic inflammation, c) genetics, d) coagulation disorders, and e) psychosocial factors. Patients in the cohort can also join the Digital Long COVID Study (DiLCoS). This substudy evaluates whether doing exercises delivered via a smartphone app (referred as digital intervention) can help with PCC. The digital intervention is a 12-week program that includes different kinds of exercises like breathing exercises, relaxation techniques, and tips on managing fatigue and other symptoms. It also teaches patients how to monitor their activities and energy levels, and provides psychological exercises to cope with negative thoughts and pain. Patients in the cohort complete a set of assessments that include the collection of sociodemographic and clinical data, biomarkers, neurocognitive testing, psychometric questionnaires, and measures of physical performance, and provide consent that their data from routine clinical care can be used for the study.
Prospective, multicentric, randomised, comparative study Study duration: 13 weeks in total Population: 30 hypertensive (Stage 1 or 2) participants (25 participants minimum) Device Under Test (DUT): Aktiia device Reference: HBPM (Aktiia cuff) Periods of treatment: 2 weeks of treatment for each drug followed by a washout period of 2 weeks (3 drugs in total with a fixed dose, drug intake order is randomly assigned)
The new training device, the eccentric arm-crank, will be examined for its training effects in athletes with a spinal cord injury (SCI) by this project. That the training device can be used in patients with paraplegia in the future, the so-called "testing of the applicability of this concept" will be carried out during this study. Fourteen volunteer, healthy athletes with SCI are first tested for their upper body performance, followed by a training phase over 20 trainings and at the end the performance data is collected again. The training intensity and duration is continuously increased during the training phase.
The goal of this observational study is to contribute to a better understanding of the perioperative kinetics of intestinal microbial composition and association with surgical site infections. The main question this study aims to determine if: - Patients undergoing surgery develop transient intestinal dysbiosis - Such transient dysbiosis is associated with translocation to the systemic circulation and surgical site infection Patients undergoing elective abdominal surgery will be included prospectively. Informed consent will be obtained. From patients the following information and samples will be collected: - Perioperative: Baseline health data, nutrition data, measurement body composition, glucose monitoring - Intraoperatively: - Mucosal swabs - Blood from central venous catheter and portal vein - Mesenteric lymph node - Intestinal specimen - Bile - Subcutaneous biopsy - Postoperatively: - If a surgical site infection occurs samples from infected site
This is a nested cohort study in the PRO-SVD cohort. Small vessel disease is a chronic disease and is thought to progress over time. MRI is the gold standard to diagnose small vessel disease, but data on MRI-visible disease progression are scarce. Complications of small vessel disease as well as location pattern, distribution and severity of these MRI small vessel disease markers differ according to the underlying phenotype. The primary aim of this project is to investigate individual small vessel disease burden progression detected by MRI in survivors or intracerebral hemorrhage.
The human brain presents outstanding challenges to science and medicine. Brain function and structure span broad spatial scales (from single neurons to brain-wide networks) as well as temporal scales (from milliseconds to years). Currently, none of the tools available for studying the brain can fully capture its structure and function across these diverse scales - "the neuroimaging puzzle". This poses crucial limitations to understanding how the brain works, and how it is affected by numerous diseases. The central goal of this project is to expand currently available tools for non-invasive human brain imaging, to bridge critical gaps in the neuroimaging puzzle. New methodologies will be developed, focused on ultra-high field magnetic resonance imaging (UHF MRI) and its combination with electroencephalography (EEG). New contrast mechanisms and technological advances enabled by UHF MRI and EEG will be explored to allow unprecedented views into the microstructure of brain regions like the thalamus, and to capture the activity of large-scale neuronal networks in the brain with high sensitivity, temporal and spatial specificity. These advances will be directly applied to address open questions in the diagnosis and treatment of essential tremor, and psychosis. In general, improved brain imaging techniques are critical for a deeper understanding of how the brain works, and to detect and characterize diseases more effectively, thereby improving clinical management and leading to a healthier population. The non-invasive characterization and treatment of neurodegenerative diseases like tremor is particularly relevant to aging modern societies.
Treatment for acute traumatic thoracolumbar burst fractures differs significantly across the world in patients without neurological impairments and without damage to the posterior column of the spine. This randomized controlled, non-inferiority clinical trial's goal is to evaluate the effectiveness of surgery versus initial non-surgical treatment for patients with traumatic thoracolumbar spine burst fractures who don't have any neurological symptoms. The study's precise objectives are to: 1. evaluate the clinical outcome (Oswestry Disability Index) 2. evaluate the radiography result (restoration and maintenance of spinal alignment) 3. determine the prevalence of complications at least 24 months of follow-up of neurologically unaffected patients with acute traumatic burst fractures. Both groups will get the same therapy using standardized methods: The surgical group's entire patient population will get combined anterior-posterior (360°) spinal fusion therapy. Three-point hyperextension orthoses will be used to treat all patients in the non-surgical group for six weeks following the injury.