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.
This study aims to assess the value of ultra-fast MRI sequences in the assessment of prostate cancer, compared to the full multiparametric/biparametric protocol as the clinical standard.
An investigation of the effect of matrix-metalloproteinase-(MMP)-9 inhibition with minocycline on the reconsolidation of trauma- or cocaine-related memories
The brain is protected from any toxic or inflammatory molecule by the blood-brain barrier (BBB). This physical barrier is located at the level of the blood vessel walls. Because of these barrier properties, the blood vessels are also impermeable to the passage of therapeutic molecules from the blood to the brain. The development of effective treatments against glioblastoma is thus limited due to the BBB that prevents most drugs injected in the bloodstream from getting into brain tissue where the tumour is seated. The SonoCloud-9 (SC9) is an investigational device using ultrasound technology and specially developed to open the BBB in the area of and surrounding the tumour. The transient opening of the BBB allows more drugs to reach the brain tumour tissue. Carboplatin is a chemotherapy that is approved to treat different cancer types alone or in combination with other drugs, and has been used in the treatment of glioblastoma. Despite its proven efficacy in the laboratory on glioblastoma cells, carboplatin does not readily cross the BBB in humans. A clinical trial has shown that in combination with the SonoCloud-9, more carboplatin can reach the brain tumour tissue. The objective of the proposed trial is to show that the association - carboplatin with the SonoCloud-9 - will increase efficacy of the drug in patients with recurrent glioblastoma.
Despite lung transplantation (LTx) being the most effective treatment for end-stage lung disease, its success rate is lower than that of other solid organ transplantations. Primary graft dysfunction (PGD) is the most common post-operative complication and a major factor in early mortality and morbidity, affecting ~25% of lung transplant patients. Induced by ischemia reperfusion, PGD represents a severe and acute lung injury that occurs within the first 72 hours after transplantation, and has a significant impact on short- and long-term outcomes, and a significant increase in treatment costs. Any intervention that reduces the risk of PGD will lead to major improvements in short- and long-term transplant outcomes and health care systems. One of the main strategies to reduce the risk and severity of post-transplant PGD is to improve pre-transplant donor lung preservation methods. In current practice, lung preservation is typically performed by cold flushing the organ with a specialized preservation solution, followed by subsequent hypothermic storage on ice (~4°C). This method continues to be used and applied across different organ systems due to its simplicity and low cost. Using this method for the preservation of donor lungs, the current maximum accepted preservation times have been limited to approximately 6-8h. While the goal of hypothermic storage is to sustain cellular viability during ischemic time through reduced cellular metabolism, lower organ temperature has also been shown to progressively favor mitochondrial dysfunction. Therefore, the ideal temperature for donor organ preservation remains to be defined and should maintain a balance between avoidance of mitochondrial dysfunction and prevention of cellular exhaustion. In addition to that, safe and longer preservation times can lead to multiple advantages such as moving overnight transplants to daytime, more flexibility to transplant logistics, more time for proper donor to recipient matching etc. Building on pre-clinical research suggesting that 10°C may be the optimal lung storage temperature, a prospective, multi-center, non-randomized clinical trial was conducted at University Health Network, Medical University of Vienna and Puerta de Hierro Majadahonda University Hospital. Donor lungs meeting criteria for direct transplantation and with cross clamp times between 6:00pm - 4:00am were intentionally delayed to an earliest allowed start time of 6:00am and a maximum preservation time from donor cold flush to recipient anesthesia start time of 12 hours. Lungs were retrieved and transported in the usual fashion using a cooler with ice and transferred to a 10°C temperature-controlled cooler upon arrival to transplant hospital until implantation. The primary outcome of this study was incidence of Primary Graft Dysfunction (PGD) Grade 3 at 72h, with secondary endpoints including: recipient time on the ventilator, ICU Length of Stay (LOS), hospital LOS, 30-day survival and lung function at 1-year. Outcomes were compared to a contemporaneous conventionally transplanted recipient cohort using propensity score matching at a 1:2 ratio. 70 patients were included in the study arm. Post-transplant outcomes were comparable between the two groups for up to 1 year. Thus, intentional prolongation of donor lung preservation at 10°C was shown to be clinically safe and feasible. In the current study design, the investigators will conduct a multi-centre, non-inferiority, randomized, controlled trial of 300 participants to compare donor lung preservation from the time of explant to implant at ~10°C in X°Port Lung Transport Device (Traferox Technologies Inc.) vs a standard ice cooler. When eligible donor lungs become available for a consented recipient, the lungs will be randomized to undergo a preservation protocol using either 10°C (X°Port Lung Transport Device, Traferox Technologies Inc.) or standard of care. The primary outcome of the study is incidence of ISHLT Primary Graft Dysfunction Grade 3 at 72 hours. Post-transplant outcomes will be followed for one year.
The project presented here aims to evaluate the discrimination capacity of the Observation of Sensory-Motor Behavior (OSMB) grid of the preterm infant, as well as its predictive capacity for the child's later psychomotor development. To do this, OSMB grids will be completed during dystimulant care and during stabilizing care in 65 preterm infants. In addition, an OSMB grid will also be completed during a sensorimotor assessment at 37 weeks gestational age and at 1 month corrected for prematurity in 100 preterm infants. The OCSM scores will then be compared to the Bayley III scale scores at 6 months of age corrected for prematurity.
The preferences of pregnant women for postpartum thromboprophylaxis are largely unknown. The aims of this transversal study are to elicit the preferences of pregnant/postpartum women about postpartum thromboprophylaxis in semi-structured interviews, and to estimate the utility of the relevant health states (pulmonary embolism, deep vein thrombosis, postpartum hemorrhage, subcutaneous injections). In this second aim, the investigators will also compare the effect of 2 different techniques to estimate utilities (standard gamble vs. time trade-off), using a randomization of these techniques.
PREcoopERA is a randomized (2:2:1), multicenter, open-label, three-arm (A, B, C), Window-of-Opportunity (WOO) trial to evaluate the activity and safety of giredestrant (A) versus giredestrant plus triptorelin (B) versus anastrozole plus triptorelin (C).
Laparoscopy has become an indispensable part of modern surgery. Vision is an important and defining element of laparoscopy and significantly affects the outcome of an operation in regard to time, mistakes and precision. Several new imaging systems have become available for laparoscopic surgery, including three-dimensional (3D) high-definition (HD), and two-dimensional (2D) ultra-high-resolution (4K) monitors. In experimental and clinical settings, several studies have been published in recent years suggesting that 3D systems present a number of potential benefits for surgeons and patients compared to the conventional 2D systems. The 3D HD system significantly reduces operation time and blood loss, and additionally shortens hospital stay. However, the performance of 3D systems against the new, ultra-high-definition 4K systems is barely known and highly controversial. There is a paucity of studies comparing these two imaging systems in clinical settings. The goal of this clinical trial is to compare 2D 4K versus 3D HD imaging systems in a complex bariatric surgery, more precisely a gastric bypass operation. The investigators aim to investigate the hypothesis stating that the use of the 3D HD system yields a significant improvement in operating time compared to a 2D 4K system in bariatric laparoscopic surgery. Furthermore, in order to give a comprehensive overview of the comparison of 2D 4K and 3D HD laparoscopy in a clinical setting, the investigators will assess the workload of the surgeon as well as the intraoperative and postoperative complications including the hospitalization time.
The purpose of this study is to investigate the immunity of persons fully vaccinated against measles, mumps and rubella and to examine the course of immunity after booster vaccination.
The investigators will obtain three-monthly voice recordings and fiberendoscopic examinations of the larynx/hypopharynx for a minimal period of 6 months from all laryngeal/hypopharyngeal squamous cell carcinoma (LSCC/HPSCC) patients, who have successfully completed curative primary treatment, except those who underwent total laryngectomy. Furthermore, the investigators will ask the patients to fill out the voice handicap index-30 questionnaire (VHI-30) during each study visit. The VHI-30 allows to make a subjective assessment of the patients' own vocal problem. The primary objective is to assess the feasibility and compliance of longterm regular voice monitoring in LSCC and HPSCC follow-up.