View clinical trials related to Cognitive Dysfunction.
Filter by:The aim of the study is to investigate effects of brain stimulation-assisted cognitive training in patients with persistent subjective or objective cognitive impairment after polymerase chain reaction (PCR)-positive COVID-19 disease.
Brain abscess is a focal bacterial or fungal infection of the brain. Treatment is neurosurgical drainage of pus followed by long-term antibiotic treatment. In spite of successful treatment of the infection, long-term cognitive problems or mental fatigue may ensue. The reason for this dysfunction may be a continuing inflammatory state or damage to brain tissue caused by the abscess. The investigators will evaluate these possibilities with the use of [18F]deoxyglucose-positron emission tomography (FDG-PET) and electroencephalography (EEG) in patients who have been treated for brain abscess and who experience cognitive problems and/or fatigue. FDG-PET may identify both inflammation and altered neuronal activity (the latter indicating damage to brain tissue), and EEG may identify altered neuronal activity, including changes in neuronal network activity.
Studies have determined that compared to cognitively intact older adults (CIOA), older adults with mild cognitive impairment (OAwMCI) exhibit more pronounced balance and gait impairments which lead to an increased risk of falls and mobility decline. Such impairments are evident during dual-tasking (i.e., simultaneous performance of cognitive and motor task) and OAwMCI have demonstrated an increased cognitive-motor interference (deteriorated performance of either or both cognitive/motor task). Furthermore, our preliminary laboratory findings indicate that compared to CIOA, OAwMCI in response to large-magnitude treadmill perturbations exhibits poor reactive responses (first line of defense against balance loss) and are unable to modulate their responses as the magnitude of perturbation increases. Despite that conventional exercise methods offer beneficial effects; they comprise of self-initiated task-specific exercises and may not focus on training reactive responses. Additionally, due to the presence of subtle balance and gait deficits, clinical measures used may not be sensitive enough to determine the risk of fall post-training. Furthermore, these training methods incorporate multiple sessions due to which adherence to exercise training is difficult with only a fraction of the older adults benefiting from it. Therefore, it is essential to incorporate a task-specific strategy that promotes factors associated with falling like balance control, muscular responses, coordination of limbs, and cognition through which OAwMCI may acquire maximum benefits to prevent a balance loss. One feasible method, which harnesses technology that can be used to deliver balance disturbances either while standing or walking in a consistent and controlled manner, is via a custom-based motorized treadmill. The scientific rigor from preliminary studies has reported a successful reduction of falls through a single session exposing CIOA to multiple treadmill-induced perturbations during gait and has shown significant improvement in reactive responses. For that reason, this stage 1 pilot study will examine the feasibility, applicability, and tolerability of a combined cognitive, and perturbation training on biomechanical determinants associated with falls and promote physical activity: kinematic variables, muscular responses, and cognitive function.
The primary objective of the study is to evaluate whether a set of algorithms analysing acoustic and linguistic patterns of speech can detect amyloid-specific cognitive impairment in early stage Alzheimer's disease, based on archival spoken or written language samples, as measured by the area under the curve (AUC) of the receiver operating characteristic curve of the binary classifier distinguishing between amyloid positive and amyloid negative arms. Secondary objectives include (1) evaluating how many years before diagnosis of Mild Cognitive Impairment (MCI) such algorithms work, as measured on binary classifier performance of the classifiers trained to classify MCI vs cognitively normal (CN) arms using archival material from the following time bins before MCI diagnosis: 0-5 years, 5-10 years, 10-15 years, 15-20 years, 20-25 years; (2) evaluating at what age such algorithms can detect later amyloid positivity, as measured on binary classifier performance of the classifiers trained to classify amyloid positive vs amyloid negative arms using archival material from the following age bins: younger than 50, 50-55, 55-60, 65-70, 70-75 years old.
The overall (cross-sectional) objective of this study is to detect and describe the profile of AD-related blood biomarkers in a population with SCD (including individuals with MCI) with the ultimate goal of investigating their capacity to predict underlying AD pathology. Longitudinally, the β-AARC_BBRC2021 study fundamentally aims at assessing the ability of AD-related blood-based biomarkers to predict disease progression in the Alzheimer's continuum. To achieve these cross-sectional and longitudinal objectives, an exhaustive set of clinical, risk factors, cognitive, mental health and neuroimaging data will be collected, as well as blood and CSF samples, from which AD-related fluid biomarkers will be determined. As a secondary objective, we will investigate the efficacy and accuracy of the Altoida NMI as a novel digital biomarker for identifying patients with SCD or MCI that have underlying AD pathology (cross-sectionally) and to test the capacity of the Altoida NMI to track disease progression in these popoulations (longitudinally).
Cognitive difficulties can affect many people who live with multiple sclerosis (MS). These difficulties, such as within thinking, memory, and problem solving, can have an impact on important aspects of an individual's life, including their daily activities, work, and how they manage their condition. Previous studies have suggested that cognitive difficulties affect approximately 40-70% of people living with MS, yet there are currently no treatments to target these problems. Recent research has directed towards a non-invasive intervention which stimulates a part of the brain (called the dorsolateral prefrontal cortex, or DLPFC for short) which is reported to participate in cognitive processes, such as memory, thinking, and attention. This intervention, called "intermittent theta burst stimulation" (iTBS), involves placing a magnetic device to the skull to activate the DLPFC underneath. This technique has been used successfully in the treatment of depression and is widely considered safe and painless. Previous studies have also shown that iTBS intervention can lead to improvements in cognitive processes. Before the investigators can progress to a large trial to explore its clinical effectiveness for reducing cognitive problems for people with MS, some aspects regarding its feasibility need to be clarified, for example whether it is an acceptable and tolerable intervention for people living with MS. A single-centre, mixed methods feasibility randomised controlled trial will be conducted to compare four groups (10 participants each) of iTBS administration. At baseline, End of Intervention (EOI), and 8-week follow up, the investigators will complete outcome measures to evaluate cognition, mood and fatigue. Participants will also undergo MRI scans at baseline and EOI. Following participation, participants will be interviews and the investigators will organise a post-participation workshop to explore their experiences of the trial, including the tolerability of the protocol and acceptability of the visit schedule, and any differences in cognition.
The proposed study will evaluate a new approach to cognitive rehabilitation of mild traumatic brain injury (mTBI) using a brain stimulation technique called transcranial direct current stimulation (tDCS). Specifically, we will investigate how tDCS combined with cognitive training improves deficits to attention and working memory in Active Duty Service Members with a history of mild traumatic brain injury (TBI). Measures of attention-related brain activity, neurocognitive assessments, and self-reported clinical outcomes will be used to determine effects of tDCS vs. sham tDCS when paired with a cognitive training intervention. By doing this study, we hope to find a reliable, noninvasive, and efficient method of treating mild TBI cognitive symptoms.
This study will evaluate the therapeutic efficacy of Neuro-World cognitive training games (Woorisoft, S. Korea) in patients with mild cognitive impairment.
The overall goal of the DISCOVERY study is to better understand what factors contribute to changes in cognitive (i.e., thinking and memory) abilities in patients who experienced a stroke. The purpose of the study is to help doctors identify patients at risk for dementia (decline in memory, thinking and other mental abilities that significantly affects daily functioning) after their stroke so that future treatments may be developed to improve outcomes in stroke patients. For this study, a "stroke" is defined as either (1) an acute ischemic stroke (AIS, or blood clot in the brain), (2) an intracerebral hemorrhage (ICH, or bleeding in the brain), (3) or an aneurysmal subarachnoid hemorrhage (aSAH, or bleeding around the brain caused by an abnormal bulge in a blood vessel that bursts). The investigators hypothesize that: 1. The size, type and location of the stroke play an important role in recovery of thinking and memory abilities after stroke, and pre-existing indicators of brain health further determine the extent of this recovery. 2. Specific stroke events occurring in individuals with underlying genetic or biological risk factors can cause further declines in brain heath, leading to changes in thinking and memory abilities after stroke. 3. Studying thinking and memory alongside brain imaging and blood samples in patients who have had a stroke allows for earlier identification of declining brain health and development of individualized treatment plans to improve patient outcomes in the future.
This research aims at describing the relationship between white adipose tissue inflammation and post-operative cognitive dysfunctions.The possible link between inflammatory cytokines secretions of the white adipose tissue of a surgical wound and the arising of patient's cognitive dysfunction in the post-operative course will be investigated. The hypothesis is that obese patient's inflammation of the white adipose tissue leads to cognitive dysfunction.