View clinical trials related to Cognitive Impairment.
Filter by:The goal of this Phase I/II clinical trial is to assess the safety and maximum tolerated training time of a self-administered computerized cognitive training (CCT) in individuals with cognitive dysfunction as a consequence of COVID-19 infection.
The goal of this clinical trial is to test the therapeutic effect of theta burst stimulation (TBS), which is one of stimulus pattern of repetitive transcranial magnetic stimulation, in patients with post stroke cognition impairment (PSCI). The main questions it aims to answer are: 1. To explore the therapeutic effect of TBS to patients with PSCI. 2. To compare effect of TBS with different dose. 3. To explore the mechanism of TBS by functional magnetic resonance imaging (fMRI). Participants will be asked to do: 1. Treated with TBS and cognitive training for 3 weeks (15 days). 2. Assessed with several scales, including Mini-mental State Examination (MMSE), Montreal Cognitive Assessment (MoCA), Loewenstein Occupational Therapy Cognitive Assessment (LOTCA), Wechsler Adult Intelligence Scale-revised in China (WAIS-RC), Wechsler Memory Scale (WMS) before and after treatment. 3. Perform the resting fMRI, electroencephalogram (EEG) and event related potential before and after treatment. Researchers will compare high-dose group, low-dose group and sham group to see if TBS play a role in PSCI and if the effect of high dose TBS was stronger than low dose.
For millions of cancer survivors, cognitive impairment is a prevalent, severe, and persistent problem that is associated with other symptoms (depressive symptoms, anxiety and fatigue), poorer work ability, and poorer quality of life. Available evidence, including work by the investigators own group, suggests that cognitive training may be a viable treatment option. However, to date, these studies are limited as none have been conducted in the home and therefore fail to address the transferability of these empirically based cognitive training programs to general practice. The purpose of this translational research is to conduct a home based single-blind, randomized controlled trial to test the feasibility, satisfaction, and preliminary efficacy of cognitive training compared to attention control in breast cancer survivors (BCS) as well as to explore potential biomarkers of intervention effects. This research innovatively builds on investigator's previous research by: 1) translating findings from the laboratory to the home setting and importantly seeks to identify facilitators and barriers of intervention use; 2) addresses limitations of previous trials (uses an attention control rather than a no-contact or wait-list control), (3) examines cognitive training effects on real-life outcomes such as associated symptoms, perceived work ability and quality of life; and (4) will be the first study in cancer survivors to explore levels of BDNF as a potentially sensitive outcome measure of intervention effects over time compared to attention control. Findings from this study will provide necessary information about the feasibility, satisfaction and preliminary efficacy of the home-based cognitive training on memory performance and processing speed as well as its effects on associated outcomes in BCS. Positive results will lead to a larger, full-scale study to determine efficacy and build evidence-based treatment for clinicians to use in treating BCS with cognitive impairment.
Previous research has shown that a healthy lifestyle, including a balanced diet, physical and social activity, and management of vascular risk factors can support both cardiovascular and brain health. In a landmark Finnish Geriatric Intervention Study to Prevent Cognitive Impairment and Disability (FINGER), a multimodal lifestyle programme had clear benefits on older adults' cognition, functioning, and quality of life. The LETHE study utilises novel technologies and digital tools to deliver an optimised and more personalised FINGER-type multimodal lifestyle intervention. A total of 160 digitally skilled older adults (age 60-77) with risk factors for dementia but without substantial cognitive impairment will be recruited in Austria, Finland, Italy, and Sweden. Participants will be randomly assigned in a 1:1 ratio to the structured ICT-assisted multimodal lifestyle program (intervention group) or a self-guided lifestyle program (control group). Duration of the study and the intervention is 24 months. The multimodal lifestyle program covers the following domains: physical activity, nutrition, cognitive activity, vascular risk management, social interaction, sleep, and relaxation. The structured intervention program follows a hybrid model where regular in-person, individual and group-based intervention activities led by professionals are supported with activities in the LETHE mobile phone application. The self-guided (control) group receives relevant health advice and is recommended and encouraged to independently implement healthy lifestyle changes that are suitable and fit in with their daily routine. Control group will have access to a simplified version of the LETHE app without any structured, scheduled activities or personalized content. The primary objective of the LETHE trial is to test the feasibility of a digitally supported multimodal lifestyle program (i.e., retention rate, adherence to intervention), and assess change in dementia risk based on validated risk scores (CAIDE, LIBRA). Other objectives include testing the intervention effects on lifestyle and risk factors, cognition, function, health-related quality of life, health literacy, physical functioning, and dementia-related biomarkers. To this aim, a range of personal, lifestyle, and health-related data will be collected both actively and passively with the help of digital devices. Attitudes towards digital tools and experiences of trial participation will also be explored.
The purpose of this study is to explore the relationship between Non-alcoholic fatty liver disease and cognitive impairment and evaluate the effect of metabolic surgery or lifestyle intervention on cognition.
Normal Pressure Hydrocephalus (NPH) is a clinical condition that induces cognitive deterioration that can be reverted, at least in part, by introducing ventricular-peritoneal diversion controlled by a miniaturized valve system. Mechanisms involved in such an improvement of cognitive function after liquor diversion are unknown. Oxysterols are a family of cholesterol-related compounds having diverse biological functions. Among others, they are involved in cholesterol homeostasis in the brain and are detectable in liquor, potentially impacting neurodegeneration. NPH is an ideal clinical model to study oxysterol distribution in liquor before and after ventricular-peritoneal diversion.
To explore the effect of different doses of vitamin D drugs on gastrointestinal cancer cancer-related cognitive impairment, so as to provide reference and basis for the clinical use of our cognitive function surgery nursing plan for patients with gastrointestinal cancer.
This is a cross-sectional and longitudinal study to investigate the relationship and central mechanism between type 2 diabetes and cognitive impairment based on the simultaneous EEG-fMRI approach and peripheral neuropathology biomarkers assay.
This is a cross-sectional and longitudinal study to establish diagnostic models based on olfactory function assessments and odor-induced brain activation for cognitive impairment in patients with type 2 diabetes mellitus.
The aims of this proposal are to: 1) investigate whether individuals with spinal cord injury (SCI) demonstrate cardiac autonomic, cerebrovascular, and cognitive dysfunctions compared to non-injured age- and sex-matched controls in the following conditions: supine rest and head-up tilt/face-cooling test; 2) examine if autonomic completeness/ incompleteness, physical activity, and psychological distress are predictors for dysfunctions during supine rest and head-up tilt/face cooling conditions in SCI individuals; 3) examine if one bout of moderate-intensity aerobic exercise temporarily improves cardiac autonomic and cerebrovascular functions and thereby improves cognition when in supine rest and head- up tilt/face cooling conditions. The study will include an initial visit and an experimental visit to our lab. Three groups of participants will be included in this study: Group 1, SCI with acute exercise; group 2, SCI with rest-control; and group 3, age- and sex-matched non-injured individuals. Cardiovascular variables, such as heart rate variability, blood pressure variability, and cerebrovascular variables, such as cerebral blood flow velocity and oxygenated hemoglobin, and cognitive performance will be examined. The investigator hypothesizes that individuals with SCI will have impaired cardiac autonomic, cerebrovascular, and cognitive functions compared to the non-injured controls, and an acute exercise can improve those functions. Autonomic completeness/incompleteness, physical activity, and psychological distress are significant factors that predict cardiac autonomic, cerebrovascular, and cognitive functions in individuals with SCI.