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.
Brief Summary: Background: Cocaine use disorders (CUD) is a multifactoral disease, involving several brain areas. One of the most investigated is the Dorsolateral Prefrontal Cortex (DLPFC) involved in impulsiveness control. Effective treatments for CUD are still needed and repetitive Transcranial Magnetic Stimulation (rTMS) is widely studied for its potential in reducing cocaine craving and consumption. Objectives: The main outcome is to test if rTMS can be related to neuroplasticity and neurotrophism through changes in Brain-Derived Neurotrophic Factor (BDNF) and its precursor (pro-BDNF) levels. Eligibility: Healthy, right-handed adults ages 18-65 who do have cocaine use disorder (moderate to severe). Design: This is a randomized, sham-controlled study. The study includes a rTMS continued treatment phase compared to healthy control (HC) evaluation. Prior to participating, participants will be screened with: - Medical history - Anamnestic sheet - Physical exam - Urine tests After being enrolled, participants and HC will undergo venous blood sample (BDNF and proBDNF levels). During the continued rTMS phase, participants with cocaine use disorder will be randomized to receive real or sham rTMS; a former arm is also provided and is made up of HC. RTMS will be delivered in 10 days, over 2 weeks (5 days/week). After the last rTMS session a blood sample for neurotrophines levels will be collected. Treatment includes: - rTMS: A coil is placed on the head. At each session, participants will receive two rTMS sessions, with a 50 mins interval. At the beginning of each rTMS session, they view cocaine-related images for few minutes (cue-induced stimuli). - BDNF/proBDNF levels: A venous blood sample will be collected before the first stimulation and after the last stimulation of the intensive-stimulation period (first two weeks), this sample will be also collected from HC. The blood sample will be centrifuged within 20 minutes of sampling at 1000 × g for 15 minutes. Then, the serum will be aliquoted and stored at -80 ° C until analysis. - Urine toxicological screen
This study is planned as a part of the post market clinical follow-up (PMCF) on a CE marked product. The purpose of this study is to assess, in a routine clinical environment at two centers the use of fabian-PRICO with noninvasive ventilation and its safety and performance at targeting and maintaining accurate SpO2 levels.
The rationale of this study is to provide an overview on PCL (Primary Cardiac Lymphoma) in Italy, trying to shed light on unknown aspects of the disease and on unanswered questions about its management that could be helpful in clinical practice.
Consecutive patients accessing the emergency department with suspected stroke dispatch will be recruited at 3 study units: 1) ASL Abruzzo 1, hospitals of L'Aquila and Avezzano; 2) ASL Abruzzo 2, hospital of Chieti; 3) IRCCS Humanitas Research Hospital of Milan. Anonymized clinical and low-field (LF) MRI data as well as conventional neuroimaging data will be independently assessed by external units (Università Politecnica delle Marche and Policlinico di Messina, respectively). Both units will independently adjudicate the best treatment option, while the latter will also provide historical MRI data of stroke patients to develop artificial intelligence algorithms facilitating LF-MRI images interpretation (Libera Università di Bolzano). Agreement with conventional neuroimaging will be evaluated at different time points (hyperacute, acute -24 h, subacute -72 h, discharge, chronic -4 weeks). Further investigations will include feasibility study to develop an ambulance (mobile stroke unit) equipped with LF-MRI and cost-effectiveness analysis of LF-MRI. This trial will provide necessary data to validate the use of LF-MRI in the acute stroke care.
The goal of this clinical trial is to assess the efficacy of the use of powered exoskeleton for ambulation on the quality of life in subjects with spinal cord injury. The main questions it aims to answer are: 1. How much does the use of powered exoskeleton improve the quality of life in subjects with spinal cord injury after a 24 months treatment period in a house context (treatment 1) or in a clinical setting (treatment 2)? 2. How much do the two treatments differ in terms of cost-utility ratio? Participants will be included in a multi-step process consisting of: 1. Recruitment, based on eligibility criteria; 2. Observation of the "stability" over time (2 months) of specific clinical parameters; 3. Training in the use of the powered exoskeleton (1 month); 4. Random selection of the rehabilitation treatment (house rehabilitation or central rehabilitation); concerning the house rehabilitation, the subject will be provided the device for home use; concerning the central rehabilitation, the subject will be asked to use intensively the device 1-week every three months in a clinical facility. 5. Follow-up: every six months each subject will be asked to attend a single-day activities session consisting of walking activities with the exoskeleton, compilation of questionnaires, sub-maximal effort test with arm-ergometer, and physical examinations made by a physiatrist.
In multiple sclerosis (MS) brains, inflammation induces specific abnormalities of synaptic transmission, collectively called inflammatory synaptopathy. Such synaptopathy consists in unbalanced glutamatergic and GABAergic transmission and in remarkable changes in synaptic plasticity, causing excitotoxic neurodegeneration and impairing the clinical compensation of the ongoing brain damage, thereby exacerbating the clinical manifestation of the disease. In progressive MS (PMS), synaptopathy is characterized by pathological potentatiation of glutamate-mediated synaptic up-scaling (Centonze et al., 2008; Rossi et al., 2013) and loss of long-term synaptic potentiation [LTP (Weiss et al., 2014)], both caused by proinflammatory molecules (released by microglia, astroglia, and infiltrating T and B lymphocytes) (Malenka et al., 2004; Di Filippo et al., 2017; Stampanoni Bassi et al., 2019). The combination of increased up-scaling and decreased LTP has a significant impact on the clinical manifestations of PMS, often presenting with signs and symptoms indicating length-dependent degeneration of neurons of the corticospinal tract. Altered LTP expression impairs brain ability to compensate ongoing neuronal loss (Stampanoni Bassi et al., 2020), and pathological TNF-mediated up-scaling may directly promote excitotoxic damage and neurodegeneration (Rossi et al., 2014). In addition, up-scaling and LTP are mutually exclusive at a given synapse through a mechanism of synaptic occlusion (i.e., pre-existing up-scaling saturates and prevents subsequent LTP expression), further promoting neurodegeneration by preventing the pro-survival effect of LTP, the induction of which activates intracellular anti-apoptotic pathways (Bartlett & Wang, 2013). It follows that a neuromodulation approach that can chronically (over several months) dampen up-scaling expression in the primary motor cortex (M1) of PMS patients could be beneficial by preventing excitotoxic neurodegenerative damage triggered by up-scaling itself (Centonze et al. 2008, Rossi et al. 2014), and also by promoting LTP induction and LTP-dependent functional compensation of deficits, thereby reducing the speed of the neurodegeneration process through increased LTP-dependent neuronal survival and preservation of dendritic spines (Ksiazek-Winiarek et al., 2015). Our study aims to test whether transcranial static magnetic field stimulation (tSMS) could represent such a therapeutic approach, as recently proposed in patients with amyotrophic lateral sclerosis (ALS) (Di Lazzaro et al, 2021). Forty (40) ambulatory patients with PMS, presenting with the ascending myelopathy phenotype of the disease, will be recruited at the MS Center of the Unit of Neurology of the IRCCS Neuromed in Pozzilli (IS). In this randomized, sham-controlled, double-blind, within-subjects, cross-over study (allocation ratio 1:1), we will test the ability of repeated sessions of tSMS applied bilaterally over the M1 to safely reduce disability progression in patients with PMS. Patients will be randomly assigned to either real or sham tSMS. Each patient will participate in two experimental phases (real or sham stimulation). Each patient will self-administer tSMS over right and left M1, two session per day, 60 minutes each. The order will be randomly established and counterbalanced across participants. Both investigators and participants will be blinded to stimulation parameters. In the "real stimulation" phase, tSMS will be applied for 120 minutes each day, at home, for 12 consecutive months. In the "sham stimulation" phase, sham tSMS will be delivered with non-magnetic metal cylinders, with the same size, weight and appearance of the magnets. Clinical evaluations, including the Multiple Sclerosis Functional Composite measure (MSFC) will be performed before, during and after each experimental phase ("real" and "sham"). In addition, blood levels of neurofilaments, excitability and plasticity of M1, and MRI measures of cortical thickness will be measured before, during and after each stimulation phase.
The goal of this retrospective observational study is to [learn about the correlation between hyperbilirubinemia and retinopathy of prematurity in preterm infants. The main question it aims to answer are: • To evaluate the possible effect of neonatal jaundice linked to the presumed protective antioxidant action of bilirubin on the development of ROP, compared to a control group which, although presenting ROP, did not develop jaundice.
Profound and concomitant cardiovascular hemodynamic changes, necessary to support fetoplacental development and its increasing supply demands, occur during a physiological pregnancy characterized by an increase in cardiac output, heart rate and plasma volume, and fall in vascular resistance and blood pressure. The result of these changes is a volume overload that will lead to a compensatory transient left ventricular eccentric hypertrophy. This, together with the pro-inflammatory state typical of pregnancy, represents the pregnancy as a stress-test for the maternal cardiovascular system. Pregnancies complicated by hypertensive disorders of pregnancy (HDP), particularly those with early onset and/or complicated by intrauterine fetal growth restriction (FGR), are characterized by a cardiovascular maladaptation. Women who experienced HDP in pregnancy, especially pre-eclampsia (PE), more often develop later in life ischemic heart disease, hypertension and stroke, obesity, dyslipidemia, and end-stage renal disease. Regardless its clinical impact, very little knowledge is available on the mechanisms by which PE could lead to cardiovascular disease (CVD), and, especially, to heart failure after pregnancy. Preliminary results suggest a cross-talk between pregnancy-induced biomarkers and cardio-vascular system. Particularly, cultures of neonatal rat cardiomyocytes and fibroblasts were used to investigate the role of the serum of women with HDP in regulating their proliferation. 5-ethynyl-2'-deoxyuridine (EdU) was administered to label DNA synthesis in proliferating cells. After 3 days of in vitro culture, EdU incorporation was analyzed upon immunofluorescence staining using specific antibodies by high content microscopy. A possible protective effect exerted by the selected sera against apoptosis was evaluated, as well, by Caspase activation. Moreover, the effect of cardiomyocytes and fibroblasts proliferation and apoptosis on maternal hemodynamic parameters was evaluated using median regression models. These data show that the serum of women with HDP triggers a net increase in the percentage of proliferating cardiomyocytes compared to controls. Moreover, there were relationship between cardiomyocytes and fibroblasts proliferation and maternal hemodynamics parameters thus, supporting the hypothesis that the serum of women with HDP may contain factors capable of stimulating cardiac cells in response to the cardiovascular stress-test
The aim of the study is to compare the effects of 2 different dosages and modalities of motor-cognitive rehabilitation in Parkinson's disease with postural instability and gait disorders (PD-PIGD) on clinical features, neuroimaging and blood-based biomarkers at short-term (2 months) and long-term (7 months) follow-up. Fifty subjects with PD-PIGD will be randomized in 2 training groups: DUAL-TASK+AOT-MI and the DUAL-TASK groups. The DUAL-TASK+AOT-MI group will perform a dual-task gait/balance training consisting of action observation training (AOT) and motor imagery (MI) combined with practicing the observed-imagined exercises; DUAL-TASK group will perform the same exercises combined with watching landscape videos. The training will last 6 weeks, 3 times/week, 1 hour per session. Before and after training (W6), all the patients will undergo neurological, gait/balance, cognitive/behavioral, magnetic resonance imaging (MRI) and serum biomarkers evaluations. Neurological, gait/balance, cognitive/behavioral assessments and serum biomarkers will be also repeated at the 14-week follow-up (W14) to assess maintenance of results. Patients of both DUAL-TASK+AOT-MI and DUAL-TASK groups will be further randomized to repeat the training (6 weeks, 3 times/week, 1 hour each session) starting at W14 (DUAL-TASK+AOT-MI_DOUBLE and DUAL-TASK_DOUBLE groups). After six weeks (W20) all the subjects repeating the training will be evaluated (neurological, gait/balance, cognitive/behavioral assessments). At 28-week follow-up (W28), the whole sample of patients will be assessed with neurological, gait/balance, cognitive/behavioral, MRI and serum biomarkers evaluations. All MRI scans will be acquired at least 12 hours after last dopaminergic therapy administration to mitigate the pharmacological effects on neural activity. Twenty age- and sex-matched healthy controls will be recruited to perform gait/balance and cognitive/behavioral assessments, blood sample and brain MRI acquisition at baseline. The secondary aims of the study are to define the neuroimaging and blood-based biomarkers of PD-PIGD patients presenting different clinical features (e.g. presence of mild cognitive impairment, freezing of gait, falls and mood disturbances) and to evaluate the role of blood-based and neuroimaging biomarkers, together with clinical characteristics, in predicting the response to different dosages of rehabilitation in PD-PIGD throughout the development of a machine-learning algorithm.
Antibiotic resistance (AR) is a critical public health threat and one of the greatest challenges of the 21st century. In an estimate of 2019, nearly 700.000 infections and 33.000 attributable deaths from multi-drug-resistant bacteria (MDRB) have occurred in Europe in 2015. The gastrointestinal tract is a large reservoir for MDRB, and the gut microbiota can harbor a collection of AR genes, called gut resistome. Preliminary nonrandomized evidence suggests that fecal microbiota transplant (FMT) could be a promising treatment option to eradicate MDRB, but established evidence, as well as mechanisms that underpin this therapeutic pathway, are still unavailable. Leveraging our expertise in FMT (OU1), microbiome (OU2) and MDRB (OU3), we aim to evaluate the efficacy of FMT (from donors with limited presence of AR genes) in eradicating intestinal MDRB through a randomized controlled trial and identifying microbial features that are associated with clinical efficacy and clearance of AR genes