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.
- Determine clinical characteristics of parkinsonian patients in various stages of disease; - Measure peripheral neurodegeneration, synaptic, and inflammation biomarkers in a population of parkinsonian patients at various stages of disease. - Measure vesicular neurodegeneration, synaptic and inflammation biomarkers
The goal of this multicenter observational study is to develope and validate a new scoring system for preoperative prediction of difficulty of Laparoscopic Donor Nephrectomy. Healthy living kidney donors will be enrolled. The main questions it aims to answer are: 1) can the investigators predict difficulty of the operation ? 2) Can the investigators score difficulty based on this new scoring system? Difficulty of LDN will be graded by the operating surgeon at the end of the operation based on intraoperative predefined parameters. All operations will be blindly scored by the operating surgeon, while one radiologist will blindly review all preoperative CT scans. LAPDOCTOR scores will be compared with the degrees of difficulty assigned by the operating surgeon to investigate the match rate.
This is a non-interventional, global, multicenter, retrospective cohort study describing participant characteristics, clinical outcomes, and event rates in participants with propionic acidemia (PA).
The project aims at enhancing performance metrics and prospectively validating a radiogenomics model based on ovarian US images for predicting germline breast cancer susceptibility gene 1 and/or 2 (BRCA) status in women with healthy ovaries. The project is divided in two operational phases: Retrospective phase AIM 1: To define and implement a proper and fine-tuned image preprocessing pipeline on the existing dataset; AIM 2: To enlarge dataset size with new real images from different centers and apply data augmentation techniques, deep neural network models combined with the aforementioned handcrafted imaging features from radiomics analysis; Prospective phase AIM 3: To further cross-validate the predictive model on US images acquired prospectively in an observational multicenter study.
Spinal Muscular Atrophy (SMA) is caused by the homozygous loss of the Survival Motor Neuron (SMN) 1 gene, which leads to degeneration of spinal alpha-motor neurons and muscle atrophy. Three treatments have been approved for SMA but the available data show interpatient variability in therapy response and, to date, individual factors such as age or SMN2 copies,cannot fully explain this variance. The aim of this project is: - collect clinical data and patient-reported outcome measures (PROM) from patients treated with nusinersen, risdiplam, onasemnogene abeparvovec, - identify novel biomarkers and RNA molecular signature profiling, - develop a predictive algorithm using artificial intelligence (AI) methodologies based on machine learning (ML), able to integrate clinical outcomes, patients' characteristics, and specific biomarkers. This effort will help to better stratify the SMA patients and to predict their therapeutic outcome, thus to address patients towards personalized therapies.
The results from this study will be useful to gain detailed information on the correlation related to pathophysiological aspects between endocrine system and clinical status of patients with heart failure, and to identify factors correlated with the progression and prognosis of ICC
Ageing involves several physiological changes such as loss of muscle mass, muscle strength, and alteration of balance control mechanisms. Consequently, there is an increased fall risk that can lead the older adult to a reduced self-sufficiency in daily living activities. Investigating the role of different physical activities to counteract the age-related declines deserves attention. The present study aimed to evaluate the effects of two trainings performed with and without unstable devices, on dynamic balance control and lower limb strength compared to a control group that received no intervention.
As altitude increases, the availability of oxygen in the air decreases, and just to compensate for this lack, the body increases cardiac and respiratory work and changes blood pressure. But that is not all: at altitude the body's ability to use oxygen is also limited. Thus, there is on one hand less oxygen available, and on the other a lower capacity to use it. All this generates significant alterations at the cardiovascular level, to the point of running possible risks of heart attack, stroke and acute pulmonary edema, particularly for individuals already suffering from cardiovascular disease. The availability of modern cable cars allows an increasingly large number of individuals, including sedentary people, elderly subjects, and cardiorespiratory patients, to easily and rapidly reach high-altitude locations. Data on what happens on the cardiovascular system at high altitude are relatively scarce, and most experiments in the literature are limited by low sample sizes. The primary purpose of this study is to assess the characteristics of a large population that acutely reached high altitude at Punta Helbronner (3,466 m above sea level), a location on Mont Blanc that is readily accessible by a 20-minute cableway ride from Courmayeur (Entreves station, 1,300 m, Skyway Monte Bianco). We aim to create a unique database and study correlations between altitude and cardiorespiratory parameters (heart rate, blood pressure, and Hb saturation) by collecting medical history data and biometric measurements in a very large population and to identify subjects most at risk of developing hypoxia at altitude. In a subset of subjects, differences in biometric variables after acute exposure at high altitude (in the transition between the downstream and the upstream measuring station) will be evaluated. Two biometric multiparametric recording systems (Keito K9; Keito, Barcelona, Spain) were installed at Entreves station as well as at Punta Helbronner. Keito K9 is an automatic multiparametric recoding system for measuring peripheral oxygen saturation SpO2, heart rate HR (pulse oximeter), blood pressure (BP; wrist pressure cuff, automatic), height (laser height meter), weight (scale platform), and body mass index (BMI). Once initiated by the subject with the completion of a cardiology history questionnaire (self-reported), the automated Keito K9 system provides a sequence of vocal and animated directions to guide subjects through the measurements (the subject may elect to abstain from some of the measurements). Upon completion, the system prints a summary receipt for the subject, and the measurements are transmitted through a Wi-Fi network and collected in an Excel sheet. It should be noted that all data collected will be anonymized or not traceable to the subject, through the use of a disposable identification card (for subjects who will perform both downstream and upstream measurement).
The primary objective of the study is to evaluate the effect of setrusumab vs intravenous bisphosphonates (IV-BP) on reduction in fracture rate, including morphometric vertebral fractures in pediatric participants.
The aim of the present research is to verify if the pleasantness of affective touch is comparable between women with obesity and healthy women, while measuring the level of social anhedonia and the lifespan experience of affective touch.