View clinical trials related to Cognitive Dysfunction.
Filter by:The primary objective of this research is to evaluate the effects of non-invasive brain stimulation and computerized cognitive training on executive functioning in individuals with Primary Progressive Aphasia (PPA), mild cognitive impairment (MCI), or dementia. In this study, investigators will use transcranial direct current stimulation (tDCS) to stimulate the left dorsolateral prefrontal cortex (DLPFC). Previous studies have demonstrated that tDCS over the DLPFC led to improvements in attention deficit caused by stroke, Parkinson's Disease, and major depression as well as language deficits caused by neurodegenerative conditions such as primary progressive aphasia or mild cognitive impairment. The investigators seek to expand on this literature by investigating how anodal tDCS paired with and without cognitive training will impact executive functioning in PPA with Frontotemporal Dementia or Alzheimer's Disease pathology and Mild Cognitive Impairment/Alzheimer's Disease (e.g. shifting, updating, monitoring, and manipulation).
This platform protocol is designed to be flexible so that it is suitable for a wide range of settings within health care systems, for remote settings, and in community settings where it can be integrated into COVID-19 programs and subsequent treatment plans. This protocol is a prospective, multi-center, multi-arm, randomized, controlled platform trial evaluating potential interventions for PASC-mediated cognitive dysfunction. The hypothesis is that PASC associated dysfunction in cognitive domains, such as executive function and attention, may be improved by interventions that selectively focus on enhancing those domains.
The goal of this 13-year follow up of a randomized control trial is to study the effect of maternal choline supplementation on offspring cognition in adolescence. The main question[s] it aims to answer are: Does a higher dose of maternal choline choline (930 mg/d day supplementation) lead to improved cognition in adolescence including hippocampal-dependent episodic memory and executive functioning when compared to lower dose supplementation (480 mg/d). In this follow-up of a clinical trial participants will complete online cognition testing and emotion testing.
The objective of this observational study is to provide basic data for predicting and analyzing the occurrence and causes of delayed cognitive impairment, an important factor in the quality of life, among discharged patients who have received targeted temperature management therapy and experienced favorable neurological outcomes after out-of-hospital cardiac arrest. The main questions it aims to answer are: - Can we identify abnormal areas in the brains of patients with delayed cognitive impairment using Brain MRI or positron emission tomography (PET) imaging? - Is it possible to predict delayed cognitive impairment using biomarkers?
Veterans have numerous risk factors (e.g., PTSD, TBI, cerebrovascular problems) for later-life cognitive and functional decline. Evidence supports the effectiveness of strategy-based cognitive rehabilitation therapies, including compensatory cognitive training (CCT), for such decline. However, questions remain about the length of time that CCT-driven improvements in cognitive and everyday function last, and whether additional 'booster' training sessions could provide additional benefit to aging Veterans who previously underwent treatment. This study examines the long-term durability of CCT in Veterans aged 55+ and provides an opportunity to develop and pilot test a series of CCT booster sessions that can be personalized toward individual everyday functional goals.
We aim to use a multimodal approach comprising conventional neuropsychological cognitive tests, fluid and imaging biomarker data, to explore their association with the FLAME unsupervised cognitive computerized assessment. We believe that this would provide critical information to move forward the current research framework in the field. Participants will be selected from BBRC-sponsored studies, such as the ALFA project (STUDY 45-65 FPM/2012), the ALFA+ cohort study (ALFA - FPM - 0311), the Beta-AARC study (β-AARC_BBRC2020) or the BarcelonaBeta Dementia Prevention Research Clinic study (BBRC-DemPrev-2018)
The investigators propose to perform serial detailed cognitive, motor, behavioral, and blood collection follow-up using longitudinal structured telephone interviews of an anticipated 350 ICH survivors enrolled in Minimally Invasive Surgery Plus Alteplase for Intracerebral Hemorrhage Evacuation (MISTIE) III and ENRICH trials to identify specific cognitive and motor impairment and to perform RNA sequencing to evaluate for evidence of chronic inflammation. The investigators' expected sample size in 2022 accounts for mortality attrition of 10%/year.
Recent ground-breaking research has shown that clearance of toxic neuro-metabolites from the brain including the proteins β-Amyloid (Aβ) and tau that form dementia causing plaques and tangles is markedly impaired when sleep is disturbed. This suggests that dementia risk may be increased in people with sleep disorders such as obstructive sleep apnea (OSA). Longitudinal studies have linked OSA with a 70-85% increased risk for mild cognitive impairment and dementia. Despite this strong link, little is known about the OSA-specific mechanistic underpinnings. It is not fully understood as to how sleep disturbance in OSA inhibit brain glymphatic clearance. However, it is known that OSA inhibits slow wave sleep, profoundly activates sympathetic activity, and elevates blood pressure - particularly during sleep. These disturbances have, in turn, been shown to independently inhibit glymphatic function. Previous studies have attempted to sample human cerebrospinal fluid (CSF) involved in glymphatic clearance for dementia biomarkers during sleep. However, these studies were severely limited by the need for invasive CSF sampling. To address this problem, a set of newly available, highly sensitive blood based SIMOA assays will be used to study glymphatic function in people treated for severe OSA who undergo CPAP withdrawal. Furthermore, novel methods will be utilized to capture changes in slow wave sleep, blood pressure and brain blood flow together with sleep-wake changes in blood levels of excreted neuro-metabolites to define the pathophysiological mechanisms that inhibit brain cleaning in OSA.
Aim of the work This study aims to evaluate the possible beneficial role of silymarin in attenuating both doxorubicin related cardiac and hepatic toxicities and paclitaxel associated peripheral neuropathy and improving cognitive impairment in patients with breast cancer. This study will be a randomized placebo controlled parallel study. The study will be performed in accordance with the ethical standards of Helsinki declaration in 1964 and its later amendments. Group one: (Placebo group; n=28) which will receive four cycles of AC regimen (doxorubicin and cyclophosphamide; each cycle was given every 21 day) followed by 12 cycles of paclitaxel (each cycle was given in a weekly basis) plus placebo tablets once daily. Group two: (Silymarin group; n=28) which will receive the same regimen plus silymarin 140mg once daily
The proposed project will assess long-term changes to health/lifestyle, advanced planning, and research engagement that Black and White patients with Amnestic Mild Cognitive Impairment (aMCI) make following disclosure of positron emission tomography-based amyloid and tau burden and associated risk of conversion to Dementia-Alzheimer's Type. Healthcare access will be explored as potential barrier to or facilitator of behavior change.