Active clinical trials for "Cognitive Dysfunction"

The bi-directional dynamic cohort study is to learn about the effects of prenatal exposure to high blood glucose levels and postnatal nurturing environment factors on delayed language development in children. The study investigated the results of blood glucose screening during pregnancy for the children's mothers, and followed up on the blood glucose management effectiveness of pregnant women with abnormal blood glucose levels before delivery. Participants will be also surveyed the "S-S method for language development assessment, "gsell Scale", and "0-6 year-old family nurturing environment evaluation scale" to evaluate the language development and family nurturing environment.

The STAREE-Mind imaging sub-study will examine the effect of statin treatment over a 4-year period, compared with placebo, on markers of brain health.

The goal of this clinical trial is to find out if a 9 week group therapy using video from home will help veterans with Mild Cognitive Impairment (MCI). The main questions it aims to answer are: is the video therapy user-friendly for veterans? does it improve veterans well-being and quality-of-life? Veterans will be asked to attend nine 1 hour small group video sessions and will complete questionnaires before and after the sessions. Researchers will compare the group of veterans that starts the video sessions right away with a group that waits before starting the video sessions.

The overall aim of this pilot study is to investigate the development of magnetic resonance imaging (MRI) and cerebrospinal fluid (CSF) markers after cerebral amyloid angiopathy (CAA)-related and hypertensive arteriopathy (HA)-related intracerebral hemorrhage (ICH) in relation to cognitive decline. The results from this pilot trial will be used to design a larger cohort study to investigate underlying mechanisms of cognitive decline after ICH. The study population consists of 32 patients; 16 patients with CAA-related ICH and 16 patients with HA-related ICH who are 55 years or older. Data will be collected at four measuring points: at baseline (during hospital admission for the ICH or at the outpatients clinic within one month of presentation with an acute ICH), after three months, after six months and after 12 months. Premorbid cognitive functioning will be assessed with the Informant Questionnaire on Cognitive Decline in the Elderly (IQCODE) to select participants without pre-existing cognitive impairment.

Physiological aging is often associated with memory function decline. Recently, the use of transcranial direct current stimulation (tDCS), a type of non-invasive brain stimulation, has been combined with adaptive working memory training interventions in healthy older adults, providing evidence for a significant improvement in memory functions. To the best of our knowledge, no study addressed the use of strategic memory training coupled with the use of tDCS in normal aging. Strategic memory trainings allow to improve participants' performance in the practiced task and to generalize the use of memory strategies to new materials. This Randomized Controlled Trial (RCT) aims to evaluate the effectiveness of a combined intervention associating strategic memory training with the use of tDCS. Healthy older adults and participants with subjective cognitive decline will be recruited and randomly assigned to the experimental group (strategic memory training + ACTIVE tDCS) or the control group (strategic memory training + SHAM tDCS). All participants will be evaluated on transfer and practiced tasks before (T0) and after (T1) the treatment and during follow-up visits, scheduled at 1 month (T2) and 3 months (T3) after the intervention.

The goal of this clinical trial is to compare a precision medicine approach to the standard-of-care for people with mild cognitive impairment or early-stage dementia. Precision medicine approach starts with the completion of many tests and then the study doctor uses the test results to carefully prepare a treatment plan that is best for the individual person to help treat many of the underlying causes of mild cognitive impairment or early-stage dementia. The main question the study aims to answer is: • Does the precision medicine approach improve memory (cognitive function) better than the current standard-of-care treatment in people with mild cognitive impairment or early-stage dementia during a 9-month treatment period? This is a randomized clinical trial which means that a group of people that meet the study requirements will be assigned at random or by chance (like toss of a coin) to receive either the precision medicine treatment or the current gold standard (standard-of-care). People assigned to the precision medicine group will receive precision medicine for 9-months while those assigned to the standard-of-care group will follow that approach for 9-months, followed by an opportunity to receive up to six months of precision medicine, if desired. Participants will be asked to: Have their blood drawn for extensive lab testing and collect urine and stool samples as well Carefully follow instructions received from their study doctor and study team Make lifestyle changes as prescribed by the study doctor and study team based on your precision medicine program Take supplements and medications prescribed by the study doctor. Once officially in the study (after meeting study entry or screening requirements), participate in ten (10) monthly visits with the study doctor, and other members of the study team as scheduled. Complete cognitive tests at scheduled visits during the study Have a study partner with you during visits and to help support you on the program Researchers will compare test results between the two study groups to see if the precision medicine approach improves those tests results over the time of the study, resulting in the improvement of cognition over a 9-month treatment period.

The major goals of the study are to 1) characterize hippocampal activity in patients with mild cognitive impairment (MCI) due to Alzheimer's disease (AD) and AD who have suspected hippocampal epileptic activity based on scalp EEG recordings from IRB # 21-001603; 2) study the efficacy of brivaracetam to suppress epileptic activity and pathological high frequency oscilations (pHFOs) during hippocampal depth electrode and scalp EEG in patients with MCI and AD; and 3) investigate the effects of brivaracetam on cognition in an open-label pilot study.

With mild cognitive impairment (MCI) as the research object, the intervention effect of Yizhi Baduanjin on mild cognitive impairment was evaluated by using the Montreal Cognitive Assessment (MoCA) scale, human-computer interactive electronic cognitive function score, multi-measure EEG data and other evaluation indicators, with the intervention measures of Yizhi Baduanjin created by the Tai Chi Health Center in the early stage. This project is based on the preliminary study, followed the principles and methods of clinical epidemiology and evidence-based medicine, and designed a prospective, randomized, single-blind, parallel controlled trial to make up for the deficiency of existing drugs in the intervention of mild cognitive impairment, and to provide evidence for the clinical and community promotion and application of effective and safe traditional Chinese medicine non-pharmaceuticals in the prevention and treatment of mild cognitive impairment.

The goal of this clinical trial is to evaluate the safety and tolerability of a novel deep brain stimulation (DBS) of the Subthalamic Nucleus (STN) and Nucleus Basalis of Meynert (NBM) to treat cognitive and cognitive-motor symptoms in individuals with Parkinson's disease. The main question it aims to answer is: Is a combined deep brain stimulation approach targeting the STN and NBM with four DBS leads safe and tolerable for cognitive and cognitive-motor symptoms in individuals with Parkinson's disease with Mild Cognitive Impairment. Ten participants are anticipated to be enrolled. Participants will undergo a modification of the traditional STN DBS approach for motor symptoms of PD. In addition to the two leads placed within the STN, two additional leads will be placed with the NBM for treatment of cognitive and cognitive-motor symptoms. Novel stimulation patterns will be used within the NBM to target cognitive and cognitive-motor symptoms using an investigational software. Participants will be followed over two years while receiving this therapy with assessments at baseline and every six months. Assessments will include a combination of neuropsychological evaluations, cognitive assessments, motor tasks (including gait/walking), and questionnaires to evaluate the treatment. Two different surgical trajectories will be used, with half the cohort randomized to each group. This will allow comparison of the impact of surgical trajectory on the intervention.

Delirium is a clinical syndrome caused by normal dysfunction of the brain, characterized by reduced awareness and responsiveness to the environment, as well as orientation disorders, incoherent thinking and memory disorders. Delirium indicates poor recovery of cognitive function, decreased ability of daily life, may need to enter nursing homes, and even lead to adverse outcomes such as death. According to a number of clinical studies, middle-aged and elderly people are prone to delirium after undergoing major surgery. Delirium occurs in 31 % -40 % of patients over 50 years old after cardiac surgery. Compared with patients without postoperative delirium, patients with postoperative delirium had significant cognitive impairment within 1 year after cardiac surgery. The occurrence of delirium suggests that the patient 's brain has become fragile, cognitive function has begun to decline, and the risk of future dementia has increased. Secondly, delirium and dementia have overlapping clinical features and common pathogenic mechanisms. Some scholars even speculate that delirium and dementia represent different stages of a common process. It is generally believed that the peripheral immune system may be involved in the pathogenesis and progression of dementia through the dysfunctional blood-brain barrier. The activation of microglia and astrocytes leads to the release of chemokines, which can recruit peripheral immune cells to the central nervous system. At the same time, cytokines released by peripheral cells can cross the blood-brain barrier and act on glial cells to change their phenotype. This study is a prospective cohort study of patients aged 65 and over who are about to undergo elective cardiac surgery.CyTOF can achieve accurate immunophenotyping of cell populations while comprehensively and accurately detecting and analyzing cytokines and signaling pathways. Therefore, the detection of peripheral blood biomarkers may effectively predict the risk of long-term cognitive dysfunction and postoperative delirium in patients undergoing cardiac surgery.