View clinical trials related to Neurodegenerative Diseases.
Filter by:This study evaluates an educational brochure tailored to caregivers of people with Alzheimer's disease, Parkinson's disease dementia, Lewy body disease, frontotemporal dementia, and vascular disease dementia. The goal of the brochure is educating caregivers about the decreased ability to detect emotion and decreased empathy that can be seen in dementia, increasing caregiver competence in providing care, and teaching caregivers ways to manage over time that lessens burden and improves quality of life.
Since 2012, NGS sequencing of long fragments or long reads has developed in various fields of research and today presents itself as a very promising alternative solution in the analysis of repeat amplifications. The Oxford Nanopore NGS automaton offers the prospect of bringing together 1st and 2nd line analyzes of all loci potentially indicated in neurogenetics at the same time. The project aims to compare the use of this new technology with methods currently used in reference laboratories. The main objective is to evaluate the ability of next-generation high-throughput Oxford Nanopore-type sequencing (NEURONGS3) to diagnose 9 neurogenetic diseases compared to reference protocols via PCR (+/- Southern blot). The secondary objective is to evaluate the repeatability of the NGS (intra-sample reproducibility) analysis in the diagnosis of 8 neurogenetic diseases.
The purpose of the study is to systematically characterize the clinical course of the progressive neuropathy and optic atrophy observe in pediatric and adult patients with biallelic mutations in the solute carrier family 25 member 46 (SLC25A46) gene.
Since the first successful spinal fusion surgery using a modern stabilization technique in 1909, surgical fusion has become one of the most commonly performed procedures for degenerative disease of the lumbar spine. The incidence of lumbar spinal fusion for degenerative conditions has more than doubled from 2000 until 2009. Despite the high incidence of fusion surgery, the decision making in lumbar fusion surgery is complicated by a wide variety of indications (the greatest measured in any surgical procedure). This could indicate there might be an overuse of lumbar fusion. However, decompression alone, or non-operative care for degenerative conditions may risk progressive spinal instability, intractable pain, and neurological impairment. These complications in the absence of fusion surgery, clearly demonstrate the beneficial effects of adding spinal fusion surgery. Because of its beneficial effect and high usage, it is of greatest importance to reduce postoperative disability and pain, by diminishing surgical invasiveness. Traditional open posterior lumbar interbody fusion (PLIF) or transforaminal lumbar interbody fusion (TLIF) are used to treat degenerative diseases of the spinal column. These techniques require an extensive dissection of the paraspinal musculature, which in term can lead to muscle denervation, loss of function, muscular atrophy, and spinal instability. It has also been known that paraspinal muscle damage induced during surgery is related to long term disability and pain. With this knowledge, minimally invasive spine surgery began to develop in the mid-twentieth century. Since then, new direct approaches to the lumbar spine, known as lumbar lateral interbody fusion (LLIF), direct lateral interbody fusion (DLIF), or extreme lateral interbody fusion (XLIF), have been introduced. This study will focus on XLIF. Ozgur. 2006 first reported the XLIF procedure, as a minimally invasive procedure that approaches the spine from the lateral via the space between the 12th rib and the highest point of the iliac crest. This approach allows direct access to the intervertebral disc space without disruption of the peritoneal structures or posterior paraspinal musculature. Ohba. 2017 compared XLIF with percutaneous pedicle screws to traditional PLIF, and found that PLIF was associated with less intraoperative blood loss, postoperative white blood cell (WBC) counts, C-reactive protein (CRP) levels, and creatine kinases (CK) levels, indicating less muscle damage. Postoperative recovery of performance was significantly faster in the XLIF group. 1-year disability and pain scores were also significantly lower in the XLIF group. Despite these significant better results reported in the XLIF group, the systematic review of Barbagallo. 2015 concluded that there is insufficient evidence of the comparative effectiveness of lateral lumbar interbody fusion (XLIF) versus PLIF/ TLIF surgery. This indicates that the evidence for choosing between XLIF or a traditional approach is still scarce, and no recommendations can be made. This study will focus on comparing XLIF to PLIF. The objective of this study is to compare clinical and structural outcome measures between the XLIF and PLIF groups, to confirm our hypothesis that the minimally invasiveness of the XLIF technique facilitates a significant faster post-operative recovery, and improves functional and structural outcomes.
The purpose of the study is to systematically characterize the clinical course of the progressive neuropathy and optic atrophy observe in pediatric and adult patients with biallelic mutations in the ferredoxin reductase gene.
This is a first in human study to determine the safety, tolerability and pharmacokinetics of ONO-2808 in healthy adult participants. The study will be conducted in 3 parts: Part A, a single-ascending dose part with an assessment of the potential food effects in non-Japanese adult participants; Part B, a single dose part to assess the effect of age in non-Japanese elderly participants; and Part C, a multiple-ascending dose part with ONO-2808 administered to healthy subjects.
This is a phase 0 study that will enable an assessment of biodistribution and estimation of absorbed dose in humans based on data collected from five healthy volunteers, which is typically the minimum number required by the FDA for first-in-human studies to assess dosimetry of a new tracer. The evaluation of the brain imaging of thirty additional subjects in the 2nd part of the study will lead to a descriptive assessment of the targeting and pharmacokinetics of MPC6827 in the brain and between normal and diseased brain.
A study using Parkinson's disease animal model, transgenic fruit flies, demonstrated the potential of using tocotrienols (HOV-12020) as a therapeutic agent for delaying Parkinsonian motor dysfunctions. The proposed study aims to enrol 100 PD patients in a randomized placebo-controlled trial to investigate the effects of tocotrienols (HOV-12020) in motor and non-motor outcomes. Patients will be given oral tocotrienols (400mg/day) or placebo for 104 weeks. They will be assessed using the standard assessments scales in PD at baseline, Week 52 and Week 104. Neuropsychological evaluation will also be completed at these intervals to monitor progression of cognitive impairment (if any). Additional PD staging using MDSUPDRS (Part III), Hoehn & Yahr (H&Y) will be conducted at Week 26 and week 78. Blood samples will be collected to evaluate PD biomarkers and for safety monitoring (liver function, renal function and hematology).
The study will evaluate the safety and feasibility of near infrared therapy as an intervention for patients with refractory depression, anxiety, neurodegenerative disease, and traumatic brain injury.
With the increase in life expectancy of our population due to advancement of medical diagnosis and treatments, the incidence of age dependent neurodegenerative diseases increased, including Alzheimer's disease (AD), parkinsonian syndromes (PS), small vessel disease (SVD) and motor neuron disease (MND). In spite of the progress of knowing the pathogenesis of various neurodegenerative diseases at molecular and genetic level, they are still very incompletely understood and often cause diagnostic and therapeutic challenges to physicians. Due to the overlapping presentation and similar brain pathology, especially in the early stage of the diseases, it is difficult to differentiate idiopathic Parkinson's disease (iPD) from atypical parkinsonian syndromes, such as multiple system atrophy (MSA) and progressive supranuclear palsy (PSP). Similarly, distinguishing AD from other dementia syndromes including frontotemporal dementia (FTD), dementia with Lewy Bodies (DLB), corticobasal degeneration (CBD) and vascular dementia can be difficult. It is necessary to develop accurate and comprehensive diagnostic tests to properly prognosticate the diseases, start treatments in early stage of the diseases and maximize the accuracy of drug trials for more effective preventive and therapeutic measures for these neurodegenerative diseases. Therefore, the registry aims to generate a large database of cognitive, behavioral, lifestyle and psychological information of the subjects who suffered from neurodegenerative diseases, as well as to examine the genetic basis of neurodegenerative diseases to help decode the pathogenic mechanisms of the diseases. The registry may provide important information to understand symptom development of the neurodegenerative diseases, in which may help physicians to diagnose the diseases more accurately and provide better treatment plans.