View clinical trials related to Cognitive Dysfunction.
Filter by:HYPOTHESIS: MW151 intervention during whole-brain radiotherapy for intracranial metastases is safe and will mitigate neurocognitive decline. RATIONALE: There is non-clinical evidence that MW151 reduces brain inflammation and improves neurocognitive outcomes in animal models of radiation therapy induced cognitive dysfunction, and in animal models of other CNS disorders. PURPOSE: This feasibility trial will study whether MW151 mitigates neurocognitive decline following whole-brain radiotherapy in adult patients with intracranial metastases from solid tumors.
The present study aims to establish a non-pharmacological alternative in alleviating cognitive deterioration derived from undergoing chemotherapy treatment. Thus, the effectiveness of a personalized and computerized cognitive stimulation program in breast cancer survivors is assessed.
The study utilizes investigational software, the SPARK Test, with an FDA-cleared electroencephalography (EEG) amplifier and EEG cap to collect and then analyze patient EEG data.
In this study, researchers will learn more about a study drug called BIIB080. The study will focus on participants with mild cognitive impairment or mild dementia due to AD. The main question researchers are trying to answer is if BIIB080 can slow the worsening of AD more than placebo. It will focus on what dose of BIIB080 slows worsening of AD the most. To help answer this question, researchers will use the Clinical Dementia Rating-Sum of Boxes, also known as the CDR-SB. - Clinicians use the CDR-SB to measure several categories of dementia symptoms. - The results for each category are added together for a total score. Lower scores are better. Researchers will also learn more about the safety of BIIB080. The study will be split into 2 parts. The 1st part is the Placebo-Controlled Period. The 2nd part is the Long-Term Extension Period. The 2nd part of the study will help researchers learn about the long-term safety of BIIB080, and how it affects the participant's daily life, thinking, and memory abilities in the longer term. A description of how the study will be done is given below. - After screening, participants will first receive either a low dose or high dose of BIIB080, or a placebo, as an injection into the fluid around the spinal cord (cerebrospinal fluid). A placebo looks like the study drug but contains no real medicine. - Participants will receive BIIB080 or placebo once every 12 weeks or 24 weeks. - After 76 weeks of treatment in the Placebo-Controlled Period, eligible participants will move onto the Extension Treatment period, which will last 96 weeks. - In the extension period, participants who received placebo will be switched to high dose BIIB080 every 12 or 24 weeks. - Participants may be in the study for up to 201 weeks, or about 4 years. This includes the screening and follow-up periods. - Participants can continue to take certain medications for AD. Participants must be on the same dose of medication for at least 8 weeks before the screening period. - After the screening period, most participants will visit the clinic every 6 weeks.
This study will examine the effect of intraoperative sedation with midazolam, propofol and dexemdetomidine on the occurrence of postoperative cognitive impairment in patients undergoing surgical treatment of pertrochanteric fracture of the femur.
The NeuroFit study will be investigating the impact of exercise on global cognition, hippocampus-dependent memory function and the gut microbiota in a middle-aged population.
The current study is a double-blind, placebo-control randomized clinical trial examining the efficacy of memory retraining in individuals with Mild Cognitive Impairment (MCI). Impairment in higher level cognitive processing, such as new learning and memory, is one of the most common deficits in individuals with MCI and such deficits have been shown to exert significant negative impact on multiple aspects of everyday life, including occupational and social functioning. Despite these findings, few studies have attempted to treat these cognitive deficits in order to improve the everyday functioning of individuals with MCI. Through a small randomized clinical trial, the investigators found that individuals with MCI with documented cognitive impairment show a significant improvement in their memory performance following a treatment protocol designed to facilitate learning. The current proposal will replicate this finding and further evaluate (a) the impact of the treatment on everyday functioning, (b) the long term efficacy of the treatment and (c) the utility of booster sessions in facilitating long-term treatment effects. We will randomly assign older individuals who meet criteria for a diagnosis of amnestic MCI to a memory retraining group or a placebo control group. Both groups will undergo baseline, immediate and long-term follow-up assessment consisting of: (1) a traditional neuropsychological battery, (2) an assessment of global functioning examining the impact of the treatment on daily activities, and (3) functional neuroimaging. This design will allow the investigators to evaluate the efficacy of this particular memory retraining technique in an aMCI population through the assessment of cognitive function via a standard evaluation. In addition, the investigators will be able to draw conclusions regarding the impact of this particular memory remediation program on everyday life from questionnaires completed by the participant and a significant other. Optional enrollment in pre- post neuroimaging will also allow the investigators to look at changes in the brain.
We will conduct a Tau PET scan in cognitively normal older adults, enrolled in the Aging Brain Cohort Dedicated to Diversity Study (ABCD2-Tau) study at the University of Pennsylvania's Penn Memory Center/Alzheimer's Disease Core Center (PMC/ADC).Study duration will generally be a one-day study visit for PET imaging, but all subjects will be followed annually as part of their participation in the ABCD2 study. Findings from this study will likely provide insight into the mechanisms and distinctions of age-related cognitive decline and that of preclinical Alzheimer's Disease.
Depression is one of the most frequent and devastating psychiatric diseases with a substantial bur-den for patients and society. It is specifically associated with dysfunctional activity in brain networks subserving cognitive control of emotional information processing. Normalization of this activity is a hallmark of various treatment approaches. Computerized training of cognitive control has shown antidepressant effects in experimental lab settings and small clinical pilot trials. However, motiva-tion, treatment adherence, and access for patients are major challenges that limit its broader use. To address these challenges, we developed a software application (de:)press®) that integrates gamification elements in a standard cognitive control task to support motivation, usage time, usabil-ity, and therefore symptom reduction. In a previous pilot trial, we were able to document that de:)press® is superior to a non-gamified standard cognitive control training in reducing depression symptomatology. Based on these data, we now designed a full-size confirmatory trial for the pur-pose of testing the hypothesis that de:)press® provides a positive healthcare effect by means of reduction in depression severity compared to treatment as usual (TAU). In this randomized, con-trolled, clinical trial 112 patients will be randomized to the intervention group (IG) with de:)press® additional to TAU, or the control group (CG) receiving only TAU. For a period of 6 weeks, the IG is provided with de:)press®. To prove a stable efficacy of de:)press®, the primary endpoint is the dif-ference in the Montgomery-Åsberg Depression Scale (MADRS) change 4 weeks after the end of training between IG and CG.
This project aims to develop a new dual-task stationary cycling system that can monitor and provide feedback on the aerobic exercise intensity, while administrating appropriate cognitive trainings targeting various cognitive sub domains through a screen in front of the user. The proposed system is designed to train the brain with cognitive tasks and the body with aerobic exercises at the same time. The difficulties of the cognitive tasks are controlled by the users' previous performances on these tasks so that they wouldn't be too easy nor too difficult. Similarly, the intensity of the aerobic exercise will be monitored through an optical encoder for the cycling cadence, two power meters for the force output on the two pedals, as well as a heart rate monitor for the users' physiological response. Constant feedback is being provided to the users so that they will exercise at the correct intensity to provide the greater cardiovascular and cognitive benefits.