There are about 21062 clinical studies being (or have been) conducted in Italy. 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 study is aimed at developing Digital Therapeutics (DTx) algorithms for personalized PD treatment and medication plan optimization, based on Real World Data (RWD) collected from patients via digital mobile app and wearable sensors. The study design is observational/noninterventional, prospective, single-arm, aimed at collecting data from wearable sensors for validation of symptom detection algorithms, through (1) a supervised in-clinic motor assessment, performed using validated clinical scales (Visit 3, Visit 4), and (2) an unsupervised, home-based, 6-month (Visit 3 to Visit 4) data collection from wearable devices (passive monitoring) for algorithm cross-validation using patient reported outcomes (PROMs) and remote clinical assessments. The devices used in the study will be a commercial smartwatch (Garmin Vivosmart 5) for inertial data collection and a digital application through which subjects will report PROMs via a digital symptom diary. Screening visits (Visit 1 and Visit 2) will be conducted prior to enrollment to verify eligibility criteria through clinical assessments, the subjects' symptom diary, and by assessing adherence to the use of the study tools provided (i.e., mobile application and smartwatch).
Neuroscientific research has shown a close relationship between physical fitness and cognition, showing a positive effect of physical activity (e.g., aerobic activity) on the maintenance of psycho-cognitive well-being in the elderly. In particular, dancing seems to be very effective, as it involves both motor and multisensory aspects (touch, sight, hearing, proprioception), stimulating memory, motor learning and social interaction. In fact, dance increases sensory-motor skills and cognitive performance in the neurologically healthy elderly. Dance-based therapeutic approaches, in particular Argentine tango, have also been implemented in the context of neurodegenerative pathologies, including Parkinson's disease (PD) where motor (i.e., tremors, postural instability, motor slowdown) and cognitive difficulties (e.g., executive deficits) may coexist. Most of these studies have so far demonstrated a significant improvement in balance and a reduction in motor symptoms, while evidence regarding cognitive and emotional benefits brought about by dance remains limited. When investigated, cognitive benefits have often been evaluated at the level of global cognition (i.e., screening tests), without a detailed characterization of the effects of tango on cognitive and affective functioning (e.g., executive functions, social cognition, depressive symptoms), central aspects in Parkinson's disease.
High bleeding risk (HBR) patients, comprising up to 50% of those presenting with acute coronary syndrome (ACS), are a high-risk group that is increasing in size due to an aging population. The optimal selection of the potency and duration of antiplatelet therapy to reduce the risk of recurrent ischemic and bleeding events in HBR patients is still a matter of debate. Multiple strategies to reduce bleeding during secondary prevention, such as reducing the duration of dual antiplatelet therapy, using single antiplatelet therapy with a P2Y12 inhibitor, or de-escalating to a lower potency or lower-dose P2Y12 inhibitor, have been proposed. De-escalation to a lower potency or lower-dose P2Y12 inhibitor is particularly attractive because it maintains efficient pharmacological inhibition of multiple platelet pathways while potentially reducing bleeding through less aggressive activity. Yet, there has been no study comparing the effects of different de-escalation strategies with the standard potent P2Y12 inhibitors in HBR patients. The aim of the DESC-HBR study is to assess the impact of de-escalating P2Y12 inhibitor to clopidogrel 75mg, prasugrel 5mg or ticagrelor 60mg bid in HBR patients, in comparison with full-dose potent P2Y12 inhibitors, on the proportion of patients with optimal platelet reactivity (OPR). Secondary objectives involve exploring the effect of de-escalation on clinical events and patients' quality of life.
This prospective observational study aims to investigate the effectiveness and safety of SBRT in the management of oligometastases from rare tumors. In addition, the study aims to identify potential differences in treatment efficacy and toxicity between different types of cancer and to provide valuable information on the use of SBRT in these contexts, potentially leading to better treatment options and outcomes for these patients.
The purpose of this prospective and multicentric study is to evaluate the effectiveness and tolerability of lasmiditan as acute migraine treatment in a cohort of episodic or chronic migraine patients.
The purpose of this prospective and multicentric study is to evaluate the effectiveness and tolerability of rimegepant as acute migraine treatment in a cohort of episodic or chronic migraine patients.
Facioscapulohumeral Muscular Dystrophy (FSHD) is one of the most frequent muscular dystrophies in the adulthood. Multi-spectral optoacoustic tomography (MSOT) is an innovative imaging technique able to non-invasively characterize the molecular composition of the muscle tissue. With this pilot study we will explore the performance of MSOT imaging in FSHD patients and correlate the findings with clinical and MRI data, with the final aim to identify new disease biomarkers.
The aim of this open-label, randomized, 3-parallel arm trial is to compare success of intubation rate at first try between three groups that will be intubated: 1. Conventional intubation with hyperangulated videolaryngoscope (control group), 2. Intubation ProVu TM video stylet combined with hyperangulated videolaryngoscope, 3. Intubation ProVu TM video stylet combined with standard Macintosh laryngoscope.
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.
The primary objective of this single-center, no-profit, longitudinal interventional randomized controlled, single-blind trial is to compare the effects of 2 different treadmill training treatments using C-Mill: the experimental one, endowed with augmented virtual reality (AVR) applications, versus the conventional one, the standard treadmill training in PD patients with gait and or balance disturbances. The main questions the study aims to answer are 1) Is the experimental treatment more effective than the conventional one? 2) Is it possible to identify predictive and indicative biomarkers of an outcome measure of rehabilitation using extracellular vesicles (cEVs) assessed by Raman spectroscopy? Participants will be randomized into two groups: the experimental group that will receive the experimental intervention, and the control group that will receive the conventional intervention. Both groups will train three times per week for 8 weeks, the first session starting from 25 minutes (25'). The experimental and the conventional treatments are planned to be progressive and will be individualized to the participant's level of performance. Clinical, neuropsychological, and instrumental variables will be collected at baseline (T0), at the end of the treatment (T1), and 3 months after the end of treatment (T2). At 6 months after the end of treatment (T3), a phone interview will be performed. Both within-group and between-group analyses will be conducted. Biosamples will be collected at baseline (T0) and at the end of treatment (T1).