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.
Urea cycle disorders (UCDs) are dramatic congenital inherited metabolic disorders. There is no cure. Many novel therapeutic approaches are currently being developed, which hopefully will change the current situation. Testing the efficacy of such new therapies in patients is a challenge, because many clinical parameters are influenced by several disturbances and biochemical parameters are often not very specific. The measurement of ureagenesis is a tool to analyze the entire function of the urea cycle in a single test. This is more meaningful for the characterization of UCD patients than the analysis of single metabolites or enzymes. Therefore, the test will be important to evaluate current and future novel therapies. The term "ureagenesis" means "production of urea", which is the main task of the urea cycle. This total urea production can be measured with a "tracer" (in this case a stable ammonium chloride isotope). This tracer is non-radioactive and non-toxic. It is for example used as an unmarked substance in cough syrup, diuretic drugs and as food additive. Thus, the tracer does not pose a risk to the participant, especially since only a very low dose is applied. The investigators will analyze specific substances from the urea cycle (namely [15N, 14N] urea and several [15N] amino acids) that are produced during the test and compare them with results from healthy people. The maximum test duration is 5 hours. This project is being carried out at one site, namely the University Children's Hospital in Zurich. This project is being carried out under Swiss law. The responsible Ethics Committee has reviewed and approved the study.
Invasive mechanical ventilation is one of the most important and life-saving therapies in the intensive care unit (ICU). In most severe cases, extracorporeal lung support is initiated when mechanical ventilation is insufficient. However, mechanical ventilation is recognised as potentially harmful, because inappropriate mechanical ventilation settings in ICU patients are associated with organ damage, contributing to disease burden. Studies revealed that mechanical ventilation is often not provided adequately despite clear evidence and guidelines. Variables at the ventilator and extracorporeal lung support device can be set automatically using optimization functions and clinical recommendations, but the handling of experts may still deviate from those settings depending upon the clinical characteristics of individual patients. Artificial intelligence can be used to learn from those deviations as well as the patient's condition in an attempt to improve the combination of settings and accomplish lung support with reduced risk of damage.
Cervical spinal cord stimulation can elicit arm and hand movements through recruitment of proprioceptive neurons in the dorsal roots. In participants with cervical spinal cord injury, the spare roots bellow the lesion can be used to reactivate motor function. Decoding of motor intentions can be achieved through implantable electrocorticography (ECoG) devices. In this study, the investigators will use an investigational system using ECoG signal recording over the motor cortex to drive muscle specific electrical epidural spinal cord stimulation (EES). The investigators will assess the safety and preliminary efficacy of this system in 3 participants.
This is a Phase 1 dose-escalation study of PRT2527, a potent and highly selective cyclin-dependent kinase (CDK) 9 inhibitor, in participants with select relapsed or refractory (R/R) hematologic malignancies. The purpose of this study is to evaluate the safety, tolerability, recommended phase 2 dose (PR2D), and preliminary efficacy of PRT2527 as a monotherapy and in combination with zanubrutinib.
The goal of this 1:1 randomized, multi-center, open-label phase Ib/II clinical trial is to explore the efficacy of the add-on of the anti-glutamatergic drugs gabapentin, sulfasalazine and memantine to standard chemoradiotherapy with temozolomide compared to chemoradiotherapy alone in patients with newly diagnosed glioblastoma.
The purpose of this project is to explore the effects of transcranial alternating current stimulation (tACS) in children, adolescents and young adults with a 22q11.2 microdeletion. The main aim of the present research project is to investigate the effects of repeated, individually tuned high-density (HD) tACS on cognition (i.e., WM performance) and related neuroimaging markers in carriers of the 22q11DS. As cognitive deficits, most notably WM impairment, are among the earliest signs of psychotic disorders, interventions during adolescence aimed at reducing cognitive decline in at-risk individuals may prove effective in delaying or even preventing the later emergence of psychotic symptoms.
The goal of the this observational study is to gather clinically available data on patients presenting with a suspicion for arrhythmia-induced cardiomyopathy (AiCM) at the University Hospital Basel.
This study aims to systematically assess the retest reliability and ability to detect a change of new visual function tests and ophthalmological imaging methods for observing the natural course of pseudoxanthoma elasticum (PXE).
To evaluate the feasibility of the MYOTRACE NRD (Neural Respiratory Drive) index as an aid to assess the respiratory status of a patient (improving or stable versus deteriorating) as compared to a specialist in thoracic medicine's evaluation in a general care setting.
Articular cartilage lesions, with their inherent limited healing potential, remain a challenging problem for orthopaedic surgeons. Various techniques, both palliative and reparative, have been used to treat this injury with variable success rates. If not adequately treated, they may even lead to the development of early-onset osteoarthritis. Among all the available techniques, microfractures are used in restoring the cartilage tissue, especially in the deep and extended lesions. More recently, the need for minor bone trauma with still adequate bleeding resulted in the development of nanofractures. Nanofracturing means creating perforations with a smaller diameter that go deeper into the bone while damaging it less. This is supposed to reduce the injury to the subchondral bone and increase the amount of bone marrow-derived mesenchymal stromal cells at the bone surface. Thus, the aim of this pilot study is to evaluate the efficacy of nanofractures for the treatment of cartilage lesions of the knee, specifically focusing on the chondral healing that will be addressed with magnetic resonance imaging.