View clinical trials related to Nerve Degeneration.
Filter by:This is a multi-center longitudinal study that consists of five cohorts: cognitive normal aging (CN), Subjective cognitive impairment (SCI), mild cognitive impairment (MCI), Alzheimer's disease (AD) and vascular cognitive impairment (VCI). The goals of this study are as follow: 1.To establish longitudinal cohort study database containing comprehensive epidemiological data, neuropsychological test data, laboratory parameters, image data and biological samples. 2. To determine the risk factors of AD and other dementias. 3. To explore the conversion rates from CN to SCI, MCI or AD and the risk factors as well as biomarkers for the progression from CN to SCI, MCI or AD. 4. To explore and validate blood, CSF, urine, imaging and other biomarkers for the early detection and progression of AD.
Following our recently completed whole body dosimetry study for [18F] TRACK in 6 healthy control subjects, the objective of this project is to evaluate brain uptake, regional distribution and in vivo pharmacokinetics for [18F] TRACK in 30 cognitively healthy controls using dynamic PET imaging. Specifically, we will evaluate [18F] TRACK in three cohorts of healthy control subjects of different ages and both sexes to further explore tracer kinetics in vivo and to determine the most appropriate and robust model to estimate tracer binding to TrkB/C. This will assess normal TrkB/C density in vivo and provide normative data for future use of these tracers in patients.
The overall objective of this study is to identify the best approach for assessing the recovery function of sleep in neurodegenerative diseases associated with abnormal protein aggregation with regard to the conception of future intervention studies. To this end, the investigators will follow an exploratory approach in a preferably broad data set collected in patients with neurodegenerative diseases associated with abnormal protein aggregation and in healthy humans.
Mounting evidence shows that the gut microbiome plays an important role in communication within the gut-brain axis. However, the relationship between gut microbiota and their influence on anxiety is still not fully understood. Recent studies on mice found a specific microbe-produced molecule, 4-ethylphenyl sulfate (4EPS), can induce anxious behavior. 4EPS is produced by gut microbes in mice and humans. Research suggests higher 4EPS levels may strongly be associated with anxiety levels. However, anxiety is far more complicated than changes in a single molecule. There are many more factors to consider when it comes to anxiety, including various aspects of one's lifestyle and how humans perceive their environment (cognitive orientation). The primary research goal is to better understand the effects 4EPS has on human anxiety behavior and the role cognitive orientation has in connection to anxiety.
Schizophrenia is a progressive psychiatric disorder with a lifetime prevalence of 1%, its etiology is not fully understood, and it progresses with relapses. There are significant differences between patients in the age of onset, frequency of attacks, response to treatment, and clinical course of the disease. Failure to respond adequately to treatment is defined as resistance to treatment and poses a great challenge in the clinical management of the disease, but the exact cause of treatment resistance has not been clarified yet. Neurodevelopmental hypothesis, neurodegenerative hypothesis, stress-diathesis hypothesis are some of them. In the neurodegenerative hypothesis, it is thought that biochemical changes cause chronic and progressive disorders of the nervous system, and schizophrenia is considered as one of these disorders. S100B, one of the biomarkers released from the central nervous system, is a glycoprotein synthesized by astrocytes; At low concentration, it ensures neuron survival, while at high concentration it causes neuronal cell apoptosis and is associated with neurodegeneration. GFAP on the other hand, can be measured in serum in proportion to the degree of damage by passing into the bloodstream as a result of astrocyte damage. It has been shown that these markers are associated with neurodegenerative diseases, autoimmune diseases and cerebrovascular pathologies and can be measured at a significant level in the blood. As far as is known, neurodegeneration has been found in patients with schizophrenia; however, there are not enough studies in the literature regarding the relationship of this neurodegeneration with treatment response and resistance. In recent years, many biomarker studies related to schizophrenia have been conducted. These studies continue in many different areas such as the early diagnosis of schizophrenia, the treatments to be applied after diagnosis, the response to the treatment given, and the clinical course of the disease, but no biomarker indicating the desired results has yet been found. In this study, measurement of s100B and GFAP serum levels in patients with treatment-resistant schizophrenia, remission schizophrenia and healthy controls, and evaluation of their relationship with response to treatment; Thus, it is aimed to investigate these points that have not been fully elucidated in the pathogenesis of schizophrenia and their use as biomarkers in predicting the response to treatment.
This is a prospective non interventional study including patients with Relapsing-Remitting Multiple Sclerosis (RRMS) or with Neuromyelitis Optica Spectrum Disorders (NMOSD) and healthy subjects, who are enrolled within the routinely programmed clinical examinations at the IRCCS Neuromed (Pozzilli, Italy), IRCCS Polyclinic Hospital San Martino (Genoa, Italy) and Sant'Andrea Hospital - University of Rome La Sapienza (Rome, Italy). Specifically, the study investigates how ozanimod may contrast neurodegenerative mechanisms triggered by both arms of the adaptive immune response (T and B cells) and by their suboptimal regulation in MS. Overall, the project aims at assessing by in vitro experiments (there will be no patients on treatment with ozanimod and the drug will be only used in vitro): AIM1: ozanimod ability to modulate the synaptotoxic effect of T-cells derived from patients with MS relapse in a MS-chimeric ex-vivo model and to identify possible mediators (IRCCS Neuromed-Pozzilli, in collaboration with Synaptic Immunopathology Laboratory Dep. Systems Medicine, Tor Vergata University of Rome); AIM2: ozanimod ability to reduce the cytokine-mediated breakdown of the BBB and the migration of the here studied immune cells through ex vivo models of BBB (IRCCS Polyclinic Hospital San Martino); AIM3: ozanimod ability to affect the migration properties of Epstein Barr virus (EBV) infected B cells in MS (Sant'Andrea Hospital); AIM4: ozanimod ability to modulate the number and/or function of regulatory T cells (Treg), a lymphocyte population playing a key role in the control of pathogenic adaptive immune responses (Treg Cell Laboratory, Università degli Studi di Napoli "Federico II", Naples, Italy, receiving blood samples from Neuromed Hospital and Sant'Andrea Hospital; not recruiting unit). The work of the four labs is conceptually and operationally integrated: the labs at IRCCS Neuromed-Pozzilli/Tor Vergata University (Aim1) and at Polyclinic Hospital San Martino (Aim2) will investigate the effects of ozanimod on well-known mechanisms of damage in MS, inflammatory synaptopathy and BBB damage and immune cell migration. The lab at Sant'Andrea Hospital (Aim3), will verify whether B cells infected by different EBV genotypes are involved in BBB migration, and how ozanimod may interfere with this mechanism. The Treg Cell Laboratory (Aim4) will investigate whether ozanimod can also act "upstream" of these mechanisms by regulating the adaptive immune response.
The purpose of the study is to understand the composition of the nerves supplying the facet joints in low back.
A longitudinal observational neuroimaging study of individuals with Early Onset Alzheimer's disease during the prodromal phase, and matched control group - Ultrahigh Field MRI study at 7T
This study aims to assess the impact of the choice of visual feedback solution (immersive via CAVE and VR headset; non-immersive via screen only) on driving performance and quality of experience on a physical driving simulator and its acceptability to wheelchair drivers with neurological disorders.
Since the HIV changed its course to the chronic disease, high incidence of metabolic syndrome both in HIV positive and negative subjects has become an issue. Given the successful peripheral suppression of HIV after introduction of combined antiretroviral therapy (cART), comorbidities associated with aging and cognitive functioning, play the main role in the overall quality of life and adherence to the therapy. Continuous low-level neuroinflammation results in continuous and diffuse neuronal death or dysfunction leading to a certain level of neurodegeneration. Additionally, metabolic syndrome contributes to neurodegeneration causing damage to the brain vasculature and provoking the ischemic incidents. The aim of this study would be to explore the influence of switching to the INSTI based cART using neuroimaging biomarkers of inflammation and neurodegeneration. The second aim would be to monitor these neuroimaging biomarkers in patients receiving INSTI-based cART in a one-year follow-up period. Additionally, we would compare the markers of metabolic syndrome and cognitive functioning (executive functions) in HIV-positive patients after switching to INSTI-based cART and in HIV-positive patients receiving INSTI-based cART from the start. This study represents a single-center, prospective, interventional, two-armed single study. Arm I will include 60 patients on PI/EFV based ART, stable on treatment, who are switched to INSTI based regimen at the beginning of the study due to side effects or long-term toxicities like hyperlipidemia, diarrhea, (PI), insomnia, headache (EFV), high Framingham score (PI/EFV). Arm II will include 60 patients initially on INSTI-based ART, stable on treatment. The same data sets will be collected for both groups of patients. The variables collected will be related to metabolic syndrome (levels of LDL and HDL cholesterol, triglycerides, fasting insulin, glucose, blood pressure, waist circumference, waist to hip and waist to height ratio), performance on neurocognitive tests and MR spectroscopy neuroinflammation and neurodegeneration markers at the beginning of the study, as well as in 12 months follow up. Presence of steatosis and visceral fat thickness will be assessed using ultrasonography of abdomen. The primary imaging will be performed at the time of enrollment of patients, along with the neurocognitive testing and blood sampling. The secondary imaging (follow up) will be performed 12 months after the initial, also followed by neurocognitive assessment and blood sampling. Anthropometric measurements will be acquired at the time of blood sampling. Statistical analysis will be performed after collecting the data. Our work could significantly contribute to the better life quality in the aging of HIV positive subjects in the domain of cognitive functioning, tightly associated with adherence and overall life quality.