View clinical trials related to Mild Cognitive Impairment.
Filter by:The purpose of this study is to see if 6 months of home-based walking will improve memory, and brain structure and function, compared to health education in older adults that have chronic kidney disease and mild cognitive impairment.
MCI is considered an intermediate stage between normal cognitive aging and dementia. As such, improving cognitive functions of people with MCI may delay dementia onset. In recent years, tDCS, which regulates brain activity by increasing or decreasing brain tissue excitability, has become a commonly used brain stimulation method. Accumulating evidence indicates the promising effects of cognitive enhancement after tDCS over the frontal scalp regions in people with MCI (PwMCI). However, previous studies were limited by including only a self-report measure, focused on memory performance, not assessing long-term effect, and not reporting their results in follow-up. In addition, knowledge of the precise physiological consequences of tDCS on the brain tissue and related neural mechanisms in PwMCI remains rudimentary. The objectives of the proposed study, which will target PwMCI, are to investigate the effects of tDCS at the left dorsolateral prefrontal cortex on the cognitive performance and to explore the modulation of neural mechanisms associated with the use of tDCS. Forty-eight MCI participants aged over 60 years will be recruited. All participants will be assessed by Hong Kong version of Montreal Cognitive Test. Participants that meet selection criteria will be invited to the experiment. Participants will be assigned to experimental or control groups randomly. The experiment will consist of pre- and post-assessments and a 1-month follow-up assessment. Between pre- and post-assessments, participants will receive 8 sessions (2x/week for 4 weeks) of tDCS treatment (either real or sham, 20 min per session). Outcome measures include digit span test, colour trail test, verbal fluency test, Chinese version of the Verbal Learning Test , and Hong Kong version of Montreal Cognitive Assessment. Participants will also complete a computer memory task at each assessment point (performance in this task is also used as an outcome measure) and will have their brain wave recorded while completing the task. The task will require them to study and memorise Chinese characters, followed by a recognition memory test. In the study phase, participants will be required to view Chinese characters and judge whether the characters are of the animal category. In the recognition phase, participants will decide whether the characters have been seen before.
The following three-part proposal will focus on the effects of agility training as well as the relationship between agility ability and motor and cognitive function, and risk of falls in elderly adults with or without mild cognitive impairment (MCI). Part I is a cross-sectional study design that will assess the level of agility in healthy young adults, healthy elderly adults, and elderly adults with MCI to determine the effect of aging and cognition decline on agility and the relations between agility, cognitive, and motor functions. Thirty participants will be screened for eligibility and recruited for each group (90 participants total). After collecting basic data, all participants will undergo cognitive and motor function tests, as well as an agility test. Cognitive function tests include tests of global cognition, working memory, mental set shifting, and selective attention. Motor function tests include tests of single and dual task walking, strength, power, balance, flexibility, and endurance. The agility test contains stop-and-go, change of direction, and spatial orientation components. Functional near-infrared spectroscopy (fNIRS) will be used to evaluate the brain activation during the agility test, cognitive tests, and single and dual task walking. Results from all tests will be used to determine the motor, cognitive, and other predictive factors associated with agility performance, and will be used in the design of the training program in Part II and III. Part II and III are single-blinded randomized controlled trials that will explore the short and long-term effects of a multicomponent training and an agility training protocol on agility, motor, and cognitive function in elderly adults with and without MCI. Seventy-five elderly adults with MCI (Part II) and seventy-five healthy elderly (Part III) will be recruited. After screening for eligibility and collection of demographic data, participants will undergo a pretest assessment. In addition to the motor, cognitive, and agility tests used in Part I, information on history of falls, falls efficacy, and quality of life will be assessed for each participant. Brain activation will be assessed during the agility test, cognitive tests, and single and dual task walking assessments using fNIRS. Participants will be randomly allocated into one of three groups: the control group, the multicomponent training group, or the agility training group (n=25 in each group). Intervention will be executed at a frequency of 45 minutes per session, 2 times a week for 8 weeks. The control group will receive home-based health education guidelines. The multicomponent training group will engage in 3 to 4 exercises each training session comprising the influencing factors of agility, and the agility training group will engage in integrated task-specific training. A post-test will be conducted after the 8-week intervention, and 1-month, 6-month, and 12-month follow-ups will be conducted for elderly adults with MCI. The healthy elderly adults will be assessed after the intervention and at the 1-month follow-up after training.
Dementia is associated with a variety of neurovascular and neurometabolic abnormalities. Traditional imaging techniques used to investigate such abnormalities, such as Positron Emission Tomography and functional Magnetic Resonance Imaging, are not always well tolerated, have expensive start up and running costs, and are limited with regards to the types of experiments that can be performed as they can be highly sensitive to movement, are noisy, and have physical restrictions. Near-infrared spectroscopy (NIRS) is a non-invasive neuroimaging technique which uses light in the near-infrared spectrum to detect relative changes in concentration of oxygenated and deoxygenated haemoglobin, and the oxidation state of Cytochrome C Oxidase. As such, NIRS can provide measures of brain oxygenation and metabolism. NIRS is less sensitive to movement, is well tolerated and has few contraindications. It is thus a promising candidate for use in clinics or in peoples' homes for monitoring dementia. In the present study, the investigators aim to use both dual-wavelength and broadband NIRS in a range of dementia subtypes, including Alzheimer's Disease and Dementia with Lewy Bodies, and severities, including Mild Cognitive Impairment, to identify how brain oxygenation and metabolism is altered in dementia and across various clinical subgroups. The investigators also aim to determine the relationship between brain oxygenation and metabolism in dementia, and use machine learning approaches to identify optical biomarkers for dementia.
This study evaluates the effects of 3 years-Tai Chi exercise intervention on cognitive function in MCI patients and to clarify whether the intervention can prevent MCI from conversion to dementia. Patients will be randomized into the Tai chi training group and the control group.
PROACTS is a Phase I/II study to assess the efficacy of AARP Staying Sharp online health program, focusing on the health of non-professional home-based caregivers of persons with Alzheimer's disease and related dementias (ADRD). PROACTS has three aims. Aim 1&2 is an one-time survey study to evaluate the current uptake and utilization of Staying Sharp among caregivers. Aim 3 is a single-group intervention to assess how Staying Sharp may maintain health and function for caregivers of persons with ADRD. Participants will participate in a 4-month program with a 4-month follow-up. Aim 1&2: Characterize caregivers of persons with ADRD using Staying Sharp and evaluate user experiences of Staying Sharp. Aim 3: Establish preliminary efficacy of Staying Sharp program.
This project's main goal is to use state-of-the-art passive sensing techniques to identify digital biomarkers that relate to bioenergetic changes in the brain due to nicotinamide riboside supplementation in those with mild cognitive impairment and mild Alzheimer's dementia.
This study aims to (1) determine the intervention effects of sequential and simultaneous training on cognitive function and health-related function for cognitively-normal elderly and elderly with Mild Cognitive Impairment(MCI) and Subjective Cognitive Decline(SCD); (2) compare which combination approach is more advantageous for improvement on outcome measures.
Grounding (Earthing) refers to the practice of contacting the Earth or a properly installed grounding mat with the body. Previous studies on grounding have shown positive effects body-wide inflammation, acute and chronic pain, and immune system response. Prior studies on the inflammatory process of mild cognitive impairment due to Alzheimer's disease, Alzheimer's disease, and some other dementias have shown connections between immune system dysregulation, inflammatory markers, and severe disease progression. Finding ways to mitigate or turn off the inflammatory response is key to treating mild cognitive impairment due to Alzheimer's disease. The purpose of this study is to evaluate the effects of sleeping grounded on cognition and personal perceptions in participants with a diagnosis of mild cognitive impairment due to Alzheimer's disease as evidenced by a battery of assessments using Cogstate's Cognitive Brief Battery and a qualitative questionnaire. We hypothesize that assessment scores will improve with grounding and that perceptions will positively correlate with an increase in scores. Modulation of risk factors like glucocorticoid resistance, SCI, and immune system dysfunction through grounding may lead to an accessible, natural technique for neurodegenerative disease prevention or treatment.
This is a multi-center, randomized, double-blind, placebo-controlled, Phase IV trial to evaluate the efficacy and safety of Choline Alfoscerate compared to placebo in patients with degenerative mild cognitive impairment.