View clinical trials related to Cognitive Dysfunction.
Filter by:A randomized, double-blind, placebo-controlled clinical trial will be conducted, using data from participants who met the diagnostic criteria for mild cognitive impairment and who participated in a primary clinical trial that investigated the effectiveness of treatment with tDCS for patients with this pathology. The study in question seeks to investigate differences in inflammatory profile and gene expression in peripheral blood of patients with MCI responders and non-responders to treatment with tDCS, where it is intended to establish a profile of biomarkers that can predict disease progression. Primary study participants will be assessed previously for eligibility, then randomized to receive sham or active tDCS. Then, they will be invited to participate in the prediction analysis study to identify the inflammatory profile and gene expression. The participants' venous blood will be collected during the clinical examination on the first day of treatment, before the first session of tDCS, with a new collection after the last session, that is, at the baseline and the end point of our study.
The S22 study investigates, in a cross-sectional study, the ability of algorithms that analyse acoustic and linguistic patterns of spoken language to predict the presence of amyloid positivity in early stage Alzheimer's disease, specifically in Mild Cognitive Impairment (MCI) and cognitively normal (CN) cohorts; and whether similar algorithms can predict cognitive functioning, in classifying MCI vs CN.
This study tests the feasibility, acceptability, and efficacy of a multimodal intervention (walking, social engagement, and reminiscence), including the use of wearable digital biomarkers, for cognitively healthy and mildly cognitively impaired African Americans aged 65 and older.
Elderly patients are often considered as a high-risk population for major abdominal surgery due to reduced functional reserve and increased comorbidities. Previous study reported that about 40 and 10% of elderly (60 yr and older) patients suffered from postoperative cognitive dysfunction (POCD) 7 days and 3 months, respectively, after noncardiac surgery. POCD is a central nervous system complication after anesthesia and an operation, whose risk factors include age, education level, the operation (time, type, and mode), anesthesia (methods, drugs, and time) and postoperative analgesia. In the study of Su X et al, elderly patients are also more prone to develop postoperative sleep disturbances after surgery with prolonged sleep latencies, fragmented sleep, decreased sleep efficiency and abnormally sleep stages. Increasing evidence showed that sleep and circadian rhythm disturbances after surgery could promote β-amyloid peptide (Aβ) accumulation by simultaneously upregulating Aβ synthesis and interfering with Aβ clearance. This insoluble Aβ aggregates to form brain extracellular senile plaques, which are one of the neuropathological hallmarks of numerous postoperative cognitive disorders such as Alzheimer's disease(AD), and can be measured by amyloid positron emission tomography (PET) imaging through injecting 18F-florbetapir, a novel imaging agent that binds with high affinity (Kd 3.1 nM+0.7) to β-amyloid peptide fibrils in brain amyloid plaques, to the patients.Transcutaneous electrical acupoint stimulation (TEAS) is a new acupuncture therapy developed by combining transcutaneous electrical nerve stimulation (TENS) in European and American countries and traditional Chinese acupuncture. TEAS treat disease through inputting a pulse current of different frequencies, intensities, and waveforms via electrode paste adhering to the skin. Previous studies proved that TEAS has been successfully applied in many different procedures through stimulating different acupoints such as reducing postoperative pain, postoperative nausea and vomiting (PONV), and improving postoperative sleep quality. However, whether TEAS could affect Aβ deposition by improving postoperative sleep quality and thus affect the development of long-term cognitive impairment is still unclear. The aim of our study is to conduct the TEAS intervention to elderly patients who received laparoscopic abdominal surgery, and then to examine its effect on postoperative sleep quality, postoperative cognition and complications. In this study, we utilized 18F-florbetapir imaging to assess the relationships between postoperative sleep disturbances and POCD and brain Aβ burden through measuring by PET imaging.
The elderly population worldwide is expected to increase exponentially. There will be a higher percentage of older adults suffering cognitive decline in the coming decades. Cognitive impairment, being the most common health problem associated with ageing, contributes to possible loss of functional independence and disability. The purpose of this study is to determine the effectiveness of four mixed modalities of three training programs (combined cognitive and physical training [CCPT], cognitive or physical training only) on cognition and fitness of community-dwelling older adults in Hong Kong. The study hypotheses will be set as the integrated format of all three training will have higher cognition and fitness scores than other combinations of two training modes and all these mixed modalities will have greater positive outcomes than the active control subjects.
Postoperative cognitive dysfunction is defined as a cognitive decline arising after surgery. In the present study, the authors evaluate the level of D-Amino Acid Oxidase, D-serine and Serine in blood as an indicator of postoperative cognitive dysfunction after cardiac surgery.
Type 2 diabetes mellitus (T2DM) impairs the brain, leading to cognitive dysfunction, which carries substantial lifetime consequences. This highlights an urgent need to find effective therapeutic strategies to improve cognitive function among those with T2DM. Aerobic exercise enhances cognitive function among healthy subjects through increased release of BDNF. BDNF supports survival of existing neurons and promotes growth of new neurons and synapses. Emerging evidence suggests that reduced BDNF levels may exacerbate cognitive dysfunction associated with T2DM. Compared to drug delivery of BDNF, aerobic exercise is a low-cost, safe, and easily accessible path to increasing endogenous BDNF levels. One critical genetic variant that affects BDNF secretion and cognition is the BDNF Val66Met variant, which is a common missense polymorphism that results in a valine (Val) to methionine (Met) substitution at codon 66 located in exon IX of the BDNF gene. The Met allele alters intracellular processing, trafficking, packaging of pro-BDNF, and consequently interferes with the activity-dependent secretion of mature BDNF among Met carriers. In addition, previous research reported an influence of the Val66Met variant on the methylation level of the surrounding region. Carrying a G nucleotide (i.e., Val allele) will have an additional CpG site, and Val/Val homozygotes demonstrated a significant increase in methylation levels of four nearby CpG sites compared to Val/Met heterozygotes and Met/Met homozygotes. Because high BDNF gene methylation is associated with reduced BDNF mRNA levels, this may result in lower BDNF levels among Val/Val carriers. However, the transcription of promoter IV can be initiated by exercise, suggesting that epigenetic modulation of BDNF gene expression may be achieved by exercise. It is plausible that exercise may partly reverse transcriptional repression through dynamic DNA demethylation, but the interaction between DNA demethylation and Val homozygosity may be different from that in Met/Met and in Val/Met carriers, which could explain interpersonal differences in cognitive outcomes among these carriers following exercise training. So far, the evidence on the interplay of the Val66Met polymorphism, DNA methylation, and exercise on cognition among individuals with T2DM is still lacking. A total of 42 participants with T2DM will be randomized 2:1 to receive aerobic exercise intervention (n=28) or attention control (n=14) for 3 months. Both groups will receive weekly phone calls during the intervention and standard printed education materials regarding diabetes self-management. In addition to these interventions, the aerobic exercise group (i.e., experimental group) will also perform home-based walking exercise, while the attention control group will perform home-based stretching exercise. Trained students will monitor the exercise sessions for both groups at the Connected Health Platform (hereafter referred to as "platform"). Blood samples will be collected at baseline and three months. Outcomes of interest include post-intervention changes in plasma BDNF levels, BDNF DNA methylation executive function, memory, and processing speed. The study will evaluate the feasibility of the home-based exercise intervention. The study will also evaluate preliminary effectiveness of the supervised exercise program on of the exercise program on BDNF DNA demethylation. An exploratory aim is to explore the association of DNA demethylation with plasma BDNF levels and cognition.
We propose to validate an interactive, immersive spatial memory test from the laboratory test. This VR-based working memory test (VRWMT) is a first-person, self-pacing game embedded within a virtual reality environment, the program is easily implemented with minimal instructions and no supervision that can be community-users friendly. It is specifically designed to assess rapid spatial working memory - a common deficit in all NCD subtypes. Its ability to detect pathological models of dementia, age-related deterioration, and hippocampal dysfunction are well established in literature
This study is designed to investigate the safety of Umbilical Cord Blood Plasma infusions in elderly adults regardless of gender, with age-related cognitive decline. Human clinical data of the use of young plasma appear to show beneficial cognitive effects.
Intensive care units (ICU) provide life-saving care for nearly five million people annually. Up to 80% of patients receiving care in an ICU experience at least one episode of delirium. Delirium, an acute episodic display of confused thinking and unawareness, predicts impaired cognition and accelerated cognitive decline which negatively impacts quality of life (QOL) long after hospital discharge. The average age of ICU patients is 52 years. These middle-age (MA) ICU survivors need cognitive interventions that are well planned, accessible, and effective to improve cognition and prevent accelerated decline so they can resume their previous QOL and enter older age with optimized cognitive function. Physical exercise and cognitive training independently improve cognition and emerging evidence indicates that combining these two approaches produces even greater effects on cognition. Community-based rehabilitation centers are accessible for MAICU survivors to engage in physical activity; cognitive training could easily be added. Approaches in which a patient engages in physical exercise and cognitive training concurrently is an understudied intervention for all ICU survivors, especially those who are middle-aged. Study aims are to investigate the feasibility and acceptability of a simultaneous recumbent cycling and cognitive training intervention (SRCCT) for MAICU survivors who experienced at least one delirium episode during their ICU stay. Feasibility will be determined by systematically evaluating research team training, participant recruitment, randomization, implementation, and intervention fidelity. Acceptability will be evaluated via a satisfaction, preferences, burden, and participant-suggested improvements survey. The SRCCT effect sizes will be calculated comparing multiple data point cognition scores between an SRCCT group and a usual care control group. Upon completion, investigators expect to understand the feasibility and acceptability of the SRCCT delivered in community-based rehabilitation centers, and the combined effect of SRCCT on cognition and QOL for middle-aged ICU survivors who experienced an episode of ICU delirium. The hypothesis is that study participants who engage in physical exercise and cognitive training concurrently will have a greater improvement in cognition and QOL than physical exercise training alone.