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.
This is a multicenter, interventional study. The study will enroll patients that fulfill the inclusion criteria over a 33-month period. Considering the small number of patients who will meet the study criteria, it is also possible to include retrospective patients who already underwent STAR (for instance, as part of a compassionate program) if they meet all the inclusion and exclusion criteria as well as the treatment planning standardized requirements and sign their consent to this trial. All patients prospectively enrolled will undergo a flow of investigations following a standardized approach. ICD programming will be standardized.
MANCAVA sets out fundamental methodologies for characterizing human fundamental physiological system interactions at a whole-body level, particularly focusing on the interplay among cortical brain activity, autonomic function, and cerebrovascular autoregulatory mechanisms. By investigating the complex, time-varying mechanisms underlying the multisystem dynamic interactions, novel methods linking various brain areas and reflex functions to target organs and districts such as heart and circulatory system are proposed with the clinical aim linked to the emerging topic of depression. In this scenario, proper new mathematical tools will allow a significant leap from the current state of the art, paving the way towards a new understanding of leading comorbid contributors to global diseases such as cardiac and cerebrovascular morbidity in mood disorders. In turn, this will provide an integration among physiological and psychological dimensions for a more holistic view on depression. Researchers, professionals, and patients will all benefit from a comprehensive assessment of brain-mind-body interplay, leading to the new extended definition of default mode/mood network, neurovascular-evoked responses to autonomic stimuli, brain-autonomic consequences of emotional responses, and physiological substrates of depressive states.
The objective of this project is to explore the potential of functional near- infrared spectroscopy (fNIRS) as innovative functional biomarker for clinical trial readiness in Fragile X Syndrome (FXS) that is still without cure. The limited availability of objective and quantitative biomarkers to monitor brain function poses challenges to advancing therapeutic research. With clinical trials on the horizon, the need for precise measurement to evaluate treatment efficacy is pressing. The investigators seek to address this gap by assessing the prognostic reliability of both resting and task- evoked fNIRS. The primary objectives of this pilot study are: 1. to determine the feasibility of fNIRS in individuals with FXS; 2. to collect pilot data on individuals with FXS to determine the patterns of cerebral oxygen consumption as measured by fNIRS; 3. to compare cerebral oxygen consumption changes at rest and from visual/auditory tasks in affected individuals versus age-appropriate healthy volunteers. The secondary objectives of this study are: 1. to correlate cerebral oxygen consumption changes from visual/auditory task in affected individuals to other measures of disease state (e.g., neuropsychological assessment, disease- specific severity rating scales); 2. to examine test-retest reliability of our fNIRS measures in both affected individuals and healthy controls.
Evaluate the protein expression of lactate dehydrogenase enzyme (LDHA) and MCT-1/-4 transporters, involved in lactate synthesis and transport, in prostate carcinoma tissues from severely overweight/obese (BMI > 27.5) and non-severely overweight/normoweight (BMI < 27.5) patients affected by prostate carcinoma. ii. Characterize the immune infiltrate in the prostate carcinoma of the aforementioned patients. iii. Assess the association between intra-tumoral lactate accumulation (using LDHA and MCT-4 protein expression levels as readouts) and alterations in the tumor immune microenvironment and/or deregulation of relevant oncogenic pathways.
The objective of this project is to explore the potential of functional near-infrared spectroscopy (fNIRS) as innovative functional biomarker for clinical trial readiness in Creatine Deficiency Syndromes (CDS), a group of rare neurodevelopmental disorders. Among these disorders, effective treatments are lacking for two. The limited availability of objective and quantitative biomarkers to monitor brain function poses challenges to advancing therapeutic research. With gene therapy trials on the horizon, the need for precise measurement to evaluate treatment efficacy is pressing. This project seeks to address this gap by assessing the prognostic reliability of both resting and task-evoked fNIRS. Arousal of participants will be also assessed through the measure of spontaneous heart rate (HR) fluctuations. The primary objectives of this pilot study are: 1. to determine the feasibility of fNIRS in individuals with CDS; 2. to collect pilot data on individuals with CDS to determine the patterns of cerebral oxygen consumption as measured by fNIRS; 3. to compare cerebral oxygen consumption changes at rest and from visual/auditory tasks in affected individuals versus age-appropriate healthy volunteers. The secondary objectives of this study are: 1. to correlate cerebral oxygen consumption changes from visual/auditory task in affected individuals to other measures of disease state (e.g., neuropsychological assessment, disease- specific severity rating scales); 2. to examine test-retest reliability of our fNIRS measures in both affected individuals and healthy controls.
Prospective interventional study with a device for comparing autonomic parameters among patients with different forms of cognitive decline
Mannequin training for emergency home delivery on medical doctors and nurses
The purpose of this study is to evaluate the efficacy of lepodisiran in reducing cardiovascular risk in participants with high lipoprotein(a) who have cardiovascular disease or are at risk of a heart attack or stroke. The study drug will be administered subcutaneously (SC) (under the skin).
This is an open, multicentric, interventional, prospective, non-randomized clinical investigation. The first aim of the study is to confirm that MammoWave reaches sensitivity>75% and specificity>90% in breast cancer (BC) detection on 10.000 volunteers undergoing regular screening programs.
Technologies 3D are demonstrating enormous potential for innovation in the field of surgery,introducing the concept of "treatment customization" (from planning surgery to implant design and manufacturing) on the patient's anatomy, simply by taking advantage of the patient's own common diagnostic images and the flexibility of 3D printing. In fact, this new construction technology allows the construction of the complex anatomical geometries with economy, simplicity and on scales of production unattainable by other traditional technologies. This new construction technology allows, in fact, the construction of complex anatomical geometries with economy, simplicity and on scales of production unattainable by other traditional technologies.