There are about 1039 clinical studies being (or have been) conducted in Slovenia. 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.
An observational study in which investigators will observe platelet inhibition in patients on VA ECMO acorrding to treatment with P2Y12 inhibitor.
Atrioventricular node ablation (AVNA) with biventricular (BiV) pacemaker implantation is a feasible treatment option in patients with symptomatic refractory atrial fibrillation and heart failure. However, conduction system pacing (CSP) modalities, including His bundle pacing and left bundle branch pacing, could offer advantages over BiV pacing by providing more physiological activation. The randomized, interventional, multicentric study will explore whether CSP is non-inferior to BiV pacing in echocardiographic and clinical outcomes in heart failure (EF <50%) patients with symptomatic AF and narrow QRS scheduled for AVNA.
The study is designed as a non-randomized Phase 2 clinical intervention study. The study will include patients with disseminated Non-Small Cell Lung Carcinoma (NSCLC) which are eligible for first line of systemic treatment with immune checkpoint inhibitors and platinum-based chemotherapy (PDL1 less than 50%). Patients will receive palliative radiotherapy to multiple sites (2 to 5 sites) prior to systemic treatment. Results of treatment will be compared to historical cohort of patients treated only with systemic therapy.
CMV infection is the most prevalent infection after heart transplantation (HTX), occurring in up to 40-60% of the recipients. It most frequently occurs within the first 6 months after transplantation and commonly presents as an asymptomatic viral replication. Viral syndrome or tissue-invasive disease (gastroenteritis, pneumonitis, myocarditis or meningitis) are much less common. Even though CMV infection is generally treatable with virostatic therapy and/or CMV-specific immunoglobulins, direct effects of CMV infection (viral syndrome and tissue-invasive disease) and general and transplant-specific indirect effects of CMV infection have been associated with significant morbidity and mortality in HTX patient population, mainly due to graft loss, development of malignancies, or opportunistic infections. According to the latest consensus paper on CMV prophylaxis and treatment in solid organ transplant recipients, valgancyclovir (or its active form gancyclovir) represents a virostatic therapy of choice for CMV prophylaxis and treatment after HTX. However, valgancyclovir has an array of side effects including hematological (leukopenia, neutropenia, anemia, thrombocytopenia), neurologic (headache, insomnia), gastrointestinal (decreased appetite, diarrhea, vomiting and dyspepsia) and psychiatric (depression) disorders. These can either expose HTX patients to additional complications (e.g. leukopenia and/or neutropenia can result in systemic fungal infections), decrease patients' quality of life, or mandate a decrease in valgancyclovir dose, which exposes patients to an increased risk for CMV reactivation. Recently, letermovir (a novel CMV viral terminase inhibitor), was approved for CMV prophylaxis in allogeneic bone marrow transplant recipients as the placebo-controlled study showed that significantly less patients, treated with letermovir, developed CMV disease (37% vs. 60%; P<0.001) and there was also a trend towards lower all-cause mortality. Data on bone marrow transplant recipients additionally suggest that letermovir is generally well tolerated with side effects limited to mild gastrointestinal symptoms (diarrhea, nausea). Importantly, myelosuppresive side effects of letermovir occur very rarely. Some encouraging data does exist on the use of letermovir in kidney transplant recipients, where a recently published proof-of-concept trial (N=27) suggested comparable safety and efficacy of leteremovir (N=18) and valgancyclovir (N=9): both treatment regimens resulted in similar time-course of viral load reduction and viral clearance and were well tolerated in terms of adverse events. Currently, a Phase III clinical trial is ongoing in renal transplant recipients (Clinicaltrials.gov: NCT03443869) to confirm this pilot data. However, to date, there is no published data on the use of letermovir in patients after HTX. Based on the results in kidney transplantation, the aim of this pilot study is thus to evaluate the effects of letermovir-based CMV prophylaxis in heart transplant recipients. The primary objective of the study is to investigate the efficacy of letermovir-based CMV prophylaxis in patients after heart transplantation. The secondary objectives of the study are: - to investigate the tolerability of letermovir-based CMV prophylaxis in patients after heart transplantation. - to explore the potential correlation between letermovir-based CMV prophylaxis and restitution of cell-regulated immunity in patients after heart transplantation.
An open-label post authorization efficacy and safety study evaluating graft failure-free survival at 1-year in highly sensitized end-stage renal disease (ESRD) patients with positive crossmatch (XM) against a deceased donor prior to desensitized with imlifidase and subsequent kidney transplantation. Two non-comparative reference cohorts are included to assess the impact of differences in post-transplantation management and outcome in less sensitized patients.
This is an observational study in people with chronic kidney disease (CKD) and type 2 diabetes (T2D) who will be receiving finerenone. Kidneys filter extra water and waste out of the blood and make urine. CKD is a long-term, progressive, decrease in the kidneys' ability to filter the blood properly. In people with T2D, the body does not make enough of a hormone called insulin, or does not use insulin well enough, resulting in high blood sugar levels that can cause damage to the kidneys. As a result, CKD can occur as a complication of T2D. Finerenone works by blocking certain proteins, called mineralocorticoid receptors. An increased stimulation of these proteins is thought to damage the kidneys and the heart. By lowering their stimulation, finerenone reduces the risk of kidney disease progressively getting worse. Finerenone is available and approved for doctors to prescribe to people with CKD and T2D. Since it has only recently become available for these patients, there is a need for more information about the use of finerenone in the real-world setting. The main purpose of the study is to learn more about treatment patterns in people with CKD and T2D who just started or will start finerenone treatment as decided and prescribed by their doctor as part of their routine medical care. To answer this question, the researchers will collect data on: - Clinical characteristics (e.g., history of CKD and T2D, blood pressure, heart health) of the participants - Reasons for starting finerenone - Reasons for stopping finerenone early - How long participants have been taking finerenone (planned by their doctor compared to actual time it was taken) - Dosing of finerenone - Other medications used while taking finerenone The researchers will also collect data on medical problems (called adverse events) that the participants may have during the study. All adverse events are collected, even if they might not be related to the study treatment. Hyperkalemia, a medical term used to describe a potassium level in the blood that is higher than normal, is of special interest when finerenone is combined with some medications commonly taken to control blood pressure. Researchers want to know how often higher potassium levels occur, and when it leads to: - Stopping finerenone treatment too early - Dialysis (a medical procedure to filter the blood of extra water and waste) - Care in a hospital All data will come from medical records or from interviews study doctors will have with the participants during visits that take place during routine medical care. Participants in the US will be invited to provide voluntary blood and urine samples that could be analyzed later to better understand possible changes in protein or nucleic acid levels over time. Each participant will be in the study for 12 months. This time participating in the study may be shorter if their finerenone treatment is stopped early or the study comes to an end as planned in September 2027.
In Amyotrophic Lateral Sclerosis, dysphagia has a high incidence. With deterioration of swallowing function, percutaneous endoscopic gastrostomy (PEG) tube is recommended to ensure sufficient and safe oral intake. Dysphagia and PEG placement alter quality of life (QoL). However, QoL and attitudes toward PEG remain largely unexplored. The purpose of this study is to monitor the swallowing function in relationship to QoL and attitudes toward PEG tube insertion and feeding.
The purpose of this study is to assess the influence of extracorporeal circulation during cardiac surgery on the optic nerve sheath diameter (ONSD) after the surgery.
The study compares two medicines for treatment of children born small and who stay small, or with Turner Syndrome, Noonan Syndrome, or idiopathic short stature. The purpose of the study is to see how well treatment with somapacitan works compared to treatment with Norditropin®. Somapacitan is a new medicine, and Norditropin® is a medicine doctors can already prescribe in some countries. The study will last for about 3 years. The participants will either get somapacitan once a week for 3 years or Norditropin® once a day for 1 year followed by somapacitan once a week for 2 years. Which treatment the participants get is decided by chance.
The primary aim of this study is to find a possible correlation between tibial tuberosity rotation and coronal leg alignment. If correlation exists, a more individual tibial component rotation might be proposed during a total knee arthroplasty.