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 prospective observational study to refine and validate risk stratification algorithms aimed at identifying elderly patients at higher risk of developing cardiotoxicity (us-ing risk factors and potential blood and stool biomarkers) and at assessing whether integrated patient-oriented behavioral and psychological interventions can mitigate, prevent or delay the onset of cardiotoxicity from chemotherapy.
Over the past decade, the concept of the brain as a complex network has extremely influenced the way regarding how the latter is studied (Bartolomei et al., 2017). The structure of both structural and functional networks within the brain has been related to optimal brain functioning (Duma et al., 2022). This evolution of methods and approaches of investigation has directly impacted the study of epilepsy. An early conception of focal epilepsy was that it was related to the activity of the epileptogenic zone, which was identified as the generative element of seizures. However, what was previously considered focal was found to be network alterations at various levels, thus moving from the epileptogenic zone to the concept of the epileptogenic network. Alterations in both the structural and functional network, compared with a healthy control population, have been identified in various forms of epilepsy from focal to idiopathic generalized epilepsy (Lariviere et al., 2022, Zhang et al., 2009). Often the identification and removal of the epileptogenic network, turns out to be the elective therapy in drug-resistant focal epilepsies. The process of diagnosing and defining the epileptogenic network is still debated today. One of the most widely used methods is the implantation of intracranial electrodes for electroencephalographic recording of seizures (Bartolomei et al., 2017). This methodology carries with it several, albeit controlled, risks to the patient. New noninvasive approaches are being developed seeking to integrate information from structural neuroimaging and cortical electrical activity measured by high-density electroencephalography with external electrodes (Duma et al., 2021). These new approaches also include simulative approaches that exploit individualized information such as cortex geometry and patient-specific white matter connections (Courtiol et al. 2020). Thus, starting from a simple structural and diffusion MRI, which is done in routine clinical examinations, multiple localizing hypotheses of the epileptogenic network can be tested using simulative models and then compared with the real EEG signal as validation. Of great relevance is also to understand how the structural-functional connectome relates to cognitive function in patients with epilepsy, who have a high probability of presenting impaired functioning in one or more cognitive domains.
This is a prospective cohort study to test Minimally Invasive Treatments of the Thyroid (MITT) as potential alternative to surgery in patients with Papillary Thyroid MicroCarcinoma (PTMC)
The goal of this clinical trial is to evaluate mental health and academic motivation in university students asking help to university counselling service (UCS) in Southern Italy before anf after four weekly psychological sessions. The main question it aims to answer are: - is the psychological counselling intervention useful in improving psychological distress and academic motivation - which psychological variables predict the intervention outcome
The aim of the present study is to ask women treated with adjuvant or neoadjuvant chemotherapy for breast cancer what survival benefit would justify the treatment. The benefit should be evaluated in terms of Survival rate trade off and Survival time trade off value. The analyses will be conducted into three different groups of patients to value the survival benefit expected: 1. before to start the chemotherapy 2. during chemotherapy 3. after the end of chemotherapy
The purpose of this pilot study is to evaluate different imaging parameters in patients with previously treatment-naive DME and ME due to RVO before and after treatment with dexamethasone implant, in order to find specific retinal inflammatory and microvascular biomarkers that may be predictive of treatment outcome.
Nonalcoholic fatty liver disease (NAFLD) is globally the leading cause of liver disease and frequently progresses to cirrhosis and liver cancer. The identification of effective drugs is the main unmet clinical need. Changes in liver histones methylation accompanies the development and progression of NAFLD. Our preliminary data demonstrate that inactivation of the methyltransferases SUV420H1/2 in hepatocytes protects mice against NAFLD. In this project we propose to examine the relevance of these findings by evaluating the impact of genetic deletion of hepatic SUV420H1/2 in mice fed a steatogenic diet. To further evaluate the potential for clinical translation of these results, we will next 1) evaluate the expression of SUV420H1/2 in human liver transcriptomic data and 2) analyze the impact of genetic variations on disease outcomes in population-based cohorts; 3) test an innovative therapeutic approach based on hepatocyte-targeted antisense oligonucleotides downregulating SUV420H1/2 in human liver organoids/assembloids.
Inherited leukoencephalopathies are a broad spectrum of genetically determined disorders, characterized by specific involvement of the white matter of the central nervous system. These pathologies are almost as common as other acquired white matter disorders, such as acute disseminated encephalomyelitis and multiple sclerosis. The onset can occur at any age, from prenatal life to adulthood, and the clinical picture is mostly progressive, but can also be non-evolving or, rarely, improve over time. Thanks to new diagnostic approaches, including next-generation genetic sequencing and recognition of magnetic resonance imaging patterns, in recent years the investigators have witnessed a significant increase in the number of genetically defined leukoencephalopathies. However, despite advances in genetic studies, inherited leukoencephalopathies include a large number of inherited white matter diseases in children and adults and remain of unknown cause in many patients (about 40%). This significant percentage of cases of unknown etiology represents a major challenge for public health, both in prognostic terms and, consequently, economically. However, even in leukoencephalopathies of genetically determined cause, the absence of specific biomarkers can be a limiting factor in the design and execution of clinical studies in search of promising therapies. As in other fields of neurology, the integration of clinical and genetic data with brain MRI data plays a fundamental role in the diagnostics of subjects affected by these pathologies. Currently, the methodologies commonly used in magnetic resonance imaging are qualitative, and evaluate brain lesions through the contrast between white and gray matter. The lack of specific biomarkers is therefore a limiting factor in the design of therapeutic challenges. In this regard, the development of new multiparametric quantitative magnetic resonance imaging (qMRI) methods could allow the investigators to identify new biomarkers to assess the etiology behind leukodystrophies, increasing diagnostic power and understanding the progression or improvement of leukoencephalopathy for both future trials and existing therapies. In this perspective, recent rapid "transient-state" magnetic resonance imaging methods, such as MR Fingerprinting (MRF), have proven effective in efficiently separating different components of brain tissue. These techniques consist of rapid and highly undersampled acquisitions performed by continuously changing the MR sequence parameters, thus obtaining a signal evolution that is unique for each combination of underlying tissue properties. Furthermore, if these techniques have already shown their validity at 3 Tesla, they could be even more informative in 7T MRI where the use of qMRI could provide more details thanks to the high image resolution. The project's objective is to evaluate and validate new and innovative quantitative magnetic resonance imaging (qMRI) methodologies at both clinical and ultra-high fields in inherited leukodystrophies and those of unknown etiology. This is a national, multi-institutional, multicenter exploratory study on the potential identification and predictability of early structural and metabolic markers in quantitative MRI at 3T and 7T in the diagnosis and follow-up of leukodystrophy and leukoencephalopathy in adults and during development. The study will include multiple sub-studies: 1. A cross-sectional study in leukoencephalopathies at clinical fields. 2. A longitudinal study in leukoencephalopathies at 3T: natural history and therapy outcomes. 3. A cross-sectional and longitudinal study at 7T: The added value of ultra-high-field Magnetic Resonance Imaging in leukoencephalopathies.
Inborn Errors of Immunity (IEI) are a heterogeneous group of disorders characterised not only by an infectious diathesis, but by a wide variety of other clinical manifestations. Lymphoma is one of the most common malignancies in children and may be the first clinical manifestation of IEI, thereby 'hiding' the immune defect and delaying genetic/immunological diagnosis. Lymphomas, especially non-Hodgkin's lymphomas (NHL) are frequently associated with congenital defects of the immune system, in particular diffuse large B-cell lymphoma and Burkitt's lymphoma. Preliminary analyses conducted on 6 patients diagnosed with NHL allowed the identification of genetic variants in genes associated with IEI. In clinical practice, the diagnosis and choice of therapeutic treatment in patients with immunodeficiency-associated lymphoma are decisive and, due to the complex pathophysiology of the disease, it is not always possible to identify the boundary between benign and malignant proliferation. The identification of an undiagnosed immunodeficiency in patients with lymphoma will ensure the opportunity to apply targeted therapies, such as allogeneic haematopoietic stem cell transplantation, instead of standard clinical management based mainly on chemotherapy. The study aims to identify possible congenital defects of immunity, i.e. genetic disorders affecting the immune system, as responsible for the development of haematological malignancies. Through a multidisciplinary approach involving immunological analyses, genetic analyses and a thorough examination of clinical manifestations, we aim to characterise the immunological component underlying the development of paediatric lymphomas.
Erdheim-Chester Disease (ECD) is a rare form of histiocytosis characterized by the proliferation of blood cells, known as histiocytes, which infiltrate various organs and tissues, often causing irreversible damage. The causes of the condition are still unknown, and although some mutations in genes involved in cell proliferation have been identified, other factors may be involved. Susceptibility to developing rare diseases like ECD is typically associated with genetic factors, including DNA polymorphisms and epigenetic modifications. This study aims to analyze the entire genome of a large cohort of patients with ECD and healthy controls to determine whether there are polymorphisms and epigenetic variants associated with susceptibility to developing the disease. The study could thus clarify the genetic predisposition to ECD development, provide insights into disease pathogenic mechanisms, and identify proteins or cellular mechanisms potentially targeted by specific treatments.