View clinical trials related to Cognitive Function.
Filter by:Using a double-blind randomized controlled trial design, this study intends to evaluate the short-term effect of magnesium citrate on cognitive functions and hemodynamic parameters in MCI elders, including Montreal Cognitive Assessment, working memory test-digit span test, carotid artery flow velocity, ankle-brachial blood pressure ratio, and urinary magnesium.
The aim of this study was to investigate the effects of menstrual cycle phases on recovery and cognitive function after general anesthesia.
Currently, residents commonly experience dehydration and poor nutrition during nighttime duty hours as a result of heavy work load, lack of time to take nutrition and hydration breaks, or limited or no access to healthy food and drinks which may affect residents' work performance. The goal of this study is to compare the effects of two different meal compositions with no typical dietary practices (existing conditions) on work performance of the on-call residents during night shifts.
The aim of this study is to demonstrate the effects of 28-days supplementation with a novel probiotic formulation on mental fatigue following a cognitive load in healthy adults. Half of the participants will receive the probiotic formulation while the other half will receive placebo.
The aim of this longitudinal study is to determine whether brain function is affected after a cardiac arrest. The primary question is whether cognitive function is affected after cardiac arrest and whether it changes over time (during the first year after the event), compared with a healthy control group. Brain function during cognitive tasks and emotion processing will also be studied using functional MRI (fMRI). Another aim is to study whether clinical outcomes such as PTSD, anxiety and depression can be correlated with cognitive function and whether health- related quality of life is affected after a cardiac arrest. The results from the cardiac arrest patient group will be compared with a healthy control group.
The sponsor of this study is ChromaDex, Inc. This is a double-blind, randomized, crossover study to investigate the effects of 300 mg/d and 1000 mg/d TRU NIAGEN (nicotinamide riboside) compared to a placebo control on cognitive function, mood and sleep in men and women over 55 years of age. The trial is managed by Midwest Center for Metabolic and Cardiovascular Research.
This acute-on-chronic study will examine the effectiveness of CP9700 for improving cognitive performance and mood in healthy young adults. CP9700 is a mix of highly purified grape seed-derived polyphenolic extracts from Vitis vinifera produced by Polyphenolics Inc. (Madera, CA, USA). The polyphenolic component of the product is comprised entirely of catechin and epicatechin, derivatives of catechin and epicatechin (e.g.,epicatechin gallate), and proanthocyanidins. We will perform a randomised, double-blind, parallel-groups human intervention trial using CP9700 and a well characterised sugar-matched placebo to investigate changes in cognitive performance.
The goals of the present study are to evaluate whether the most common, and effective, treatment for acute mountain sickness (AMS), acetazolamide (AZ), has a negative, positive, or no influence on exercise performance, cognitive performance, or manual dexterity in young healthy subjects during simulated altitude exposure. AMS represents a serious challenge to the health and performance of the Warfighter who may need to rapidly deploy to high altitude. However, there have been concerns that AZ might alter or impair endurance exercise performance, and possibly fine motor skills. These would represent major limitations to the use of this drug in a Warfighter who has a specific timeframe in which to accomplish mission tasks. In the present project, we will use exposure to simulated altitude in the USARIEM hypobaric chamber to quantify the impact, if any, of AZ on endurance exercise performance following rapid ascent to 3500 meters (m) in unacclimatized lowlander volunteers. The study will be conducted using a randomized, single-blind, placebo-controlled crossover study design. Ten male and female volunteers will complete one orientation day, one VO2peak day, three days of familiarization testing at sea level (SL), then two rounds of experimental testing. Each round of experimental testing consists of six days including four days to establish baseline euhydration, followed by a 30 hour (hr) exposure to 3500 m. Volunteers will have a two week break between experimental testing rounds for washout of any effects of altitude acclimation. During one experimental round, volunteers will take two doses of AZ each day (Phase 1: 250 mg/dose,500 mg/day, Phase 2: 125 mg/dose, 250 mg/day) starting 48 hr prior to their altitude exposure and continuing for the 30 hr stay at high altitude. During the other experimental condition, volunteers will be given a placebo at the same time points as the doses of AZ. Prior to altitude exposure, AMS will be evaluated and volunteers will then ascend to a simulated altitude of 3500 m, where they will remain for 30 hr. Volunteers will rest at altitude for an hr, after which they will complete an AMS questionnaire, resting ventilation measurements, provide a blood sample and complete cognitive and finger dexterity testing. Subjects will then perform 15 minutes (min) of steady state (SS) treadmill exercise at 40-45% of SL VO2peak and a 2 mile treadmill time trial (TT). Volunteers will stay overnight in the hypobaric chamber with research staff supervision. The following morning, metabolic and blood measurements will again be completed, after which volunteers will perform the exercise testing for a second time. Cognitive and finger dexterity testing will be performed before volunteers return to sea level (i.e., "descend" from the simulated altitude). The results of the proposed study will, for the first time, provide quantitative evidence regarding whether AZ treatment impairs endurance exercise performance in the context of a Warfighter-relevant endurance exercise task.
Tree nuts (for example brazil nuts, almonds, hazelnuts, walnuts, cashew nuts etc) contain a wide variety of nutrients including fatty acids, polyphenols and micronutrients. The beneficial health effects ascribed to the consumption of tree nuts include improvements to cardiovascular outcomes and regulation of glucose levels and inflammation. Emerging evidence suggests that specific components of nuts may also contribute to brain health and function. The aim of the present study is to assess the effects of four weeks' supplementation of nut components on cognition and subjective measures. Urinary metabolites and intestinal microbial communities will also be assessed allowing biomarkers of nut exposure to be highlighted.
Findings in neuroscientific research show that the environment one lives in has measurable effects on brain morphology and functioning. Human exposure to airborne infra- and ultrasound has been constantly increasing during the last decades. For instance, the European Renewable Energy Directive, established in 2009, lead to an increased use of wind turbines, generating infrasound. The EU Directive states that until 2020 a 20% of the EUs' total energy needs is to be generated with renewables, therefore the current infrasound load in the European environment will increase further. Similarly, ultrasound is ubiquitous in the modern public environment, emitted from public address systems, animal repellents, industrial machines, even toothbrushes. The present study aims to investigate potential long-term effects of exposure to infra- and ultrasound on subjective well-being, cognitive and brain functioning, as well as on brain structure. The study will apply a randomized-(placebo) controlled single-blind approach to investigate this subject.