View clinical trials related to Cognitive Dysfunction.
Filter by:The goal of this clinical trial is to investigate the effects of a three-week altitude-like cognition training intervention in healthy individuals (substudy 1) and symptomatically stable patients with mood disorders (depression or bipolar disorder; substudy 2). This multi-modal intervention consists of an adaptive cognitive training programme that participants complete while they're inside an altitude-training room with 12% O2, corresponding to 4400 meters altitude. Across substudy 1 and 2, the investigators hypothesize that altitude-like cognition training has a beneficial effect on cognition after three-weeks treatment completion measured with a global cognition composite score (primary outcome measure). Further, the investigators hypothesize that hypoxia and cognition training will yield improved executive functioning after treatment completion and changes in brain activity during working memory in the dorsal prefrontal cortex 4 weeks after treatment completion (secondary outcome measures). In the patient study, the investigators further hypothesize that the intervention will have beneficial effects on daily-life cognition measured in virtual reality (VR) 4 weeks after treatment completion (secondary outcome measure in substudy 2). For exploratory purposes, the study will examine effects on additional measures of cognition, functioning and self-ratings scales (tertiary outcomes). The investigators will compare the combination of altitude-like hypoxia (12%) and cognitive training with (1) hypoxia with no training, (2) cognitive training under normal oxygen levels (normoxia; 20%), and (3) normoxia with no training in healthy individuals (substudy 1). For patients with mood disorders (substudy 2) the effects of altitude-like hypoxia (12%) and cognitive training are compared to treatment as usual (TAU).
The overall aim of the study is to improve the diagnostic accuracy of AD and cognitive impairment in primary care settings to ensure better care and treatment as well as facilitate correct referrals to specialized memory clinics. The investigators will strive to recruit diverse and representative populations of patients with subjective cognitive decline (SCD), mild cognitive impairment (MCI) and mild dementia. The specific aims of the study are to: 1. Improve the detection of mild cognitive impairment (MCI) and dementia in primary care. 2. Develop and evaluate cognitive tests, blood-based biomarkers and brain imaging methods that are suitable for accurate and early diagnosis of Alzheimer's disease (AD) in primary care. 3. To prospectively validate plasma AD biomarkers for diagnosis of patients with cognitive symptoms who are evaluated in primary care. 4. Determine whether blood AD biomarkers improve patient management in primary care.
Alzheimer´s disease (AD) is the most common cause of dementia. The most important risk factor for AD is old age; modifiable risk factors for AD include metabolic risk factors, i.e. diabetes, and obesity. Insulin resistance seems to be associated with AD pathology and cognitive decline. Previous studies suggest that AD and mild cognitive impairment (MCI) due to AD, a stage between normal cognition and AD dementia, would be associated with central nervous system (CNS) insulin resistance. Insulin resistance can be measured using a sophisticated hyperinsulinemic-euglycemic clamp technique. Insulin-stimulated glucose uptake of muscles and adipose tissue is known to be reduced in an insulin resistant subject compared to healthy insulin sensitive subjects. Central nervous system insulin resistance, however, is more difficult to assess, while a clear-cut definition is thus far lacking. Previous studies have demonstrated that whole-body insulin resistance in obese subjects is accompanied with higher brain glucose-uptake (BGU) during the insulin clamp, compared to lean controls, and that BGU increases from the fasting to the insulin clamp state. On the contrary, there is no difference in BGU under fasting conditions between obese subjects and healthy lean controls. No previous studies have evaluated brain glucose uptake in clamp conditions in subjects with MCI or early AD. The aim of this study is to evaluate if brain glucose uptake is increased in MCI/ early AD subjects in a similar manner as in morbidly obese subjects in an insulin-stimulated state (during a hyperinsulinemic clamp) when compared to the fasting state, and when compared to controls. The investigators hypothesize that MCI subjects would have CNS insulin resistance that could, in time, contribute to the pathological process of AD. The investigators will recruit altogether 20 MCI subjects from the local memory clinic, and healthy controls through advertisements. All participants will undergo two [18F]-fluorodeoxyglucose (FDG) positron emission tomography (PET) scans (one in the fasting state and one during the hyperinsulinemic clamp), a magnetic resonance image scan for structural changes, blood sampling, and comprehensive cognitive testing. The participants will also undergo a [11C]PIB-PET scan to measure brain amyloid accumulation. Understanding the metabolic changes in the brain preceding AD could help in developing disease-modifying treatments in the future.
The aim of this study is to examine the effect of cognitive stimulation therapy on cognitive status and apathy in elderly individuals with mild cognitive impairment.
To evaluate the safety, tolerability, pharmacokinetics and pharmacodynamics of SHR-1707 in patients with mild cognitive impairment (MCI) due to Alzheimer's disease (AD) and mild AD for 26 weeks.
The goal of this observational study is to use the combined power of the integration of clinical, molecular, proteomic, genomic, care, social, environmental and behavioural data in patients, using advanced artificial intelligence techniques for data processing and analysis, in order to generate predictive models for the preclinical detection of CI in the population aged 55-70 years.
The goal of this study is to better understand if, in patients with mild to moderate hearing loss who are also experiencing mild cognitive impairment (MCI) or Alzheimer's disease and related dementias (ADRD), Over-the-Counter (OTC) hearing aids: 1. improve communication 2. Whether the magnitude of benefit depends on the patient's level of cognitive disability, 3. Whether alternative remediation (such as targeted communication strategies) offer similar benefits. Participants and a communication partner will be randomized into an OTC first or Communication Strategies first arm, where participants will receive communication strategy information customized for those with cognitive impairment.
The goal of this clinical trial is to test a new digital therapeutic solution which combines a holistic, multidimensional rehabilitation program based on dance and music with an innovative motivational system (DANCEREX-DTx) in Chronic Neurological Disorders (Multiple Sclerosis and pre-Mild Cognitive Impairment - MCI/ MCI at risk of Alzheimer's Disease). The main questions it aims to answer are 1] efficacy of the digital therapeutic solution in terms of adherence, clinical/functional measures, quality of life and surrogate measures; 2] usability and acceptability of the system. Participants will be randomized (with an allocation ratio of 2:1:1) into the experimental group (DANCEREX - 12 sessions of multidimensional dance-based program integrated with an innovative motivational system), active comparator group (12 sessions of multidimensional dance-based program) and placebo group (12 sessions of educational program). Researchers will compare the experimental group to other two groups to see if a digital therapeutic solution integrating a multidimensional dance-based program and motivational system is effective in increasing adherence to rehabilitation treatment.
Given that preventing and delaying the onset of dementia is a crucial public health policy issues worldwide, it is essential to develop effective interventions and implement early interventions before the onset of dementia. Subjective Cognitive Decline (SCD) is considered the earliest manifestation of dementia and individuals with SCD may have a higher risk for future cognitive decline and dementia. Despite performing normally on objective cognitive tests, individuals with SCD have been found to exhibit worse performance on some cognitive domains, including executive functions, compared to those without SCD. Executive Functions (EFs) refer to a set of cognitive processes that include working memory, inhibition, cognitive flexibility, planning, problem solving and reasoning, enabling individuals to achieve goals by controlling and regulating thoughts and behaviors. EFs are important for our daily functioning and their decline can negatively impact an individual's quality of life. However, to our knowledge, there is limited research on maintaining or improving EFs in individuals with SCD. Tinkering Activity (TA) is a hands-on cognitive activity that emphasizes process of problem-solving, active engagement and open-ended exploration, which challenges EFs. In addition, previous research has shown the benefits of TA for community-dwelling older adults. Therefore, the goal of this clinical tri is to examine the efficacy of TA based cognitive intervention in enhancing EFs in individuals with SCD. This study will be a one-group pretest-posttest design. Twelve to fifteen individuals with SCD will be recruited from the communities. All participants will receive 12 intervention sessions, each lasting 2 hours, with two sessions per week for 6 weeks. All participants will be assessed before and after the intervention.
Over 50% of the Veterans enrolled for VA health care are over the age of 65. Dementia prevalence increases with age, and with the increase in the population of people ages 65 and older, the total number of people with dementia is also increasing. Older Veterans often have comorbid PTSD, major depression and traumatic brain injury so that they are at 2 to 5 times the risk for cognitive impairment and dementia compared to the general population. There is evidence that exercise interventions in sedentary older adults could improve both physical and cognitive function. However, there have been very few studies on the effects of exercise on cognition in older Veterans and do not reflect the broader ethnic and health-status diversity of Veterans. Thus, improved knowledge of the role of exercise on cognition as well as the predictive power of biomarkers could have a major beneficial impact on Veterans' functional independence and quality of life. The investigators hypothesize that participation in the VA Gerofit exercise program will improve cognitive function in older Veterans and that blood and muscle biomarkers will predict these improvements.