View clinical trials related to Cognitive Function.
Filter by:The overarching goal for this project is to develop a service-learning program that provides students excellent hands on training and patients with an excellent service that advances their health and well-being. The aim of this study is to test the feasibility, acceptability and efficacy of an 8 week intervention on physical behaviors, cognitive function, and health outcomes compared to a control condition among sedentary, overweight and obese adults.
This study will assess the preliminary efficacy of a lifestyle intervention including low-carb/ketogenic diet and exercise, enhanced by self-monitoring through health technologies on weight and diabetes outcomes (Glucose, HbA1c) and diabetic complications (cognitive function, and renal function) in a 6-month randomized clinical trial in 60 overweight/obese adults with or without T2D. Renal function will be assessed via both traditional and novel biomarkers, including novel metabolites and mitochondrial function.
In this study, the investigators will investigate the cognitive effects of fenfluramine, a drug that directly stimulates the release of serotonin in the brain and positively modulates σ1 function. The investigators will use fenfluramine to assess the cognitive effects of modulating serotonin and σ1 function in healthy volunteers using a battery of cognitive tasks that measure learning and memory, executive functioning, reward processing, and emotional processing. The study design is double-blind, and participants will be randomised to either seven days of fenfluramine or placebo administration. All participants will attend two screening visits to assess eligibility. There are two main study visits; during the first, participants will undertake cognitive tasks and questionnaires before taking the initial study dose. One the second study visit, participants will once again complete these tasks and questionnaires after a week of fenfluramine/placebo administration.
Considering the important growing development of gaming in the world, this research area has developed considerably over the last few years. Even if it seems to be well admitted that video gamers showed better cognitive functions (e.g. visual selective attention, cognitive flexibility, task switching) parameters compared to non video gamers there is a constant concern for optimizing performance as for all other kind of athletes. However to our knowledge, only one randomized controlled trial have investigated the potential benefits of dietary supplementation on cognitive function and performance in video gamers. The use of microalgea as molecule of interest sources is a recent promising approach also to meet societal challenge as the maintain of biodiversity/landscape. Thus, the purpose of this study is to examine whether acute (single-dose) and chronic (1 month) supplementation of Microphyt's phaeosol ingredients (BrainPhyt) ingested with or without a natural stimulant, would affect cognitive function and gaming performance in experienced video gamers.
The project focuses on two central issues: 1. The impact of intensity of sport on the cognitive functioning and brain waves of children in late childhood (10-12 years old); 2. The specific impact of individual forms of sporting competitions classified according to dynamic, static components as well as closed / open skill exercise. The variables will be age, gender, and fluid intelligence. Additionally, children's temperament will be examined in order to assess its relationship with the preferences for choosing a particular type of sport activity and the intensity of this activity.
This pilot study has two goals. The first is to see if the cognitive improves when VA and CA are stimulated in MCI patients, and the second is to do an explanatory data analysis to see if that improves cognitive in relation to the rCBF improvement.
30 healthy older participants were enrolled in the study and were randomly classified into two groups. In the experimental group (n = 15) participants received 10-week Tai Chi Chuan practice intervention, in the control group (n=15) participants were asked do not change their living habits in 10 weeks. All participants had no practice Tai Chi Chuan before.
Hamstring muscle injuries (HMI) occurs frequently during excessive motions of the physiologic capability of these muscles. It is reported in the literature that impairments in muscle architecture, such as a decrease in the eccentric strength of the hamstring muscles of the knee (lengthening and contraction of the muscle), delay in the reaction time of the hamstring muscles, overactivity of the hamstring muscles, a decrease in the length of the hamstring muscle fibers, and inadequate cognitive functions may lead to HMI. Preventive and therapeutic exercises of HMI consist many different eccentric exercises, such as the Askling L-protocol and particularly Nordic hamstring exercise, for increasing the hamstring flexibility. However, it has been stated in recent studies that hamstring muscles should not be focused on alone, and a holistic exercise intervention that includes and addresses the present risk factors related to HMI is needed. Within our knowledge, the effect of a defined or improved holistic exercise approach to prevent and/or treat HMI has not been studied in the literature. Considering the risk factors underlying HMI, an exercise involving a holistic approach is needed to prevent all the risk factors. Turkish Get Up (TGU) exercise is a kind of cognitive exercise which activates all muscles and let to contract simultaneously during standing up from the supine position and turning back in 7 stages. Since the exercise originates from former Turkish athletes, it has been included in the literature as TGU. Hence, the exercise originates from former Turkish athletes, it has called as TGU. TGU exercise improves the effective and strong transition ability of the body while developing the pattern of standing up from the lying position on the floor and turning back by increasing condition/ endurance. Meanwhile, this exercise is a progressive coordinative and cognitive exercise, it requires completing each step before the next movement. The role of cognitive skills and neuroscience in the interpretation, prediction and improvement of sports performance is getting popular in recent years. Previous researches reported that athletes with reduced cognitive skills had lower sportive achievements. It has also stated that the impairment in cognitive skills tend muscles to be injured. However, no studies that investigate the effectiveness of cognitive function in preventing HMI have been encountered. So, the present study will be the first study investigating effects of a special exercise addressing cognitive function which is generally ignored in the treatment of HMI. It is aimed to figure out whether Turkish Get Up exercise or Supine sliding leg curls and Nordic Hamstring exercises are more effective on hamstring muscle function, ınjury risk, agility and cognitive function. Healthy recreational people aged between 18-25 will assign to this study. The participants will randomly be allocated four groups (Nordic protocol group, Supine sliding leg curls group, Turkish Get Up (TGU) and control group). The exercise protocols will be applied two days a week for 6 weeks, and the control group will receive no special exercise training. Participants' hamstring muscle strengths will be evaluated with ISOMED 2000 isokinetic dynamometer, the hamstring flexibility with digital inclinometer device, injury risk with FMS™, agility with T-agility test, and the cognitive function with CNS Vital Signs in computer environment at baseline and 6 weeks after interventions.
Deficits in emotional cognitive control are present in a number of clinical psychiatric populations including depression, anxiety, and PTSD. Deficits in this domain of function limit one's ability to focus attention on goal directed activities while inhibiting reactions to irrelevant emotional stimuli, and this contributes to the symptoms of these disorders and makes individuals less likely to be successful in existing treatments. The left dorsolateral prefrontal cortex (LDLPFC) and its connectivity with other regions (i.e., dorsal anterior cingulate cortex, ventromedial prefrontal cortex, insula, amygdala) is thought to play a central role in facilitating emotional cognitive control. However, past research has primarily utilized correlational approaches that limit conclusions about the directionality of these relationships. Enhancing our understanding of the neural underpinnings of emotional cognitive control could be valuable for informing treatment for populations with deficits in these processes. The current study utilizes a neuromodulatory approach called real-time functional magnetic resonance imaging neurofeedback (rtfMRI-nf) whereby participants observe their own neural activity in the moment and are taught to self-regulate this activity. Healthy adult participants will be trained to increase neural activity in LDLPFC while involved in mental tasks involving emotional cognitive control processes. The mental tasks will include counting, remembering words, or planning events while viewing negatively-valenced emotional words (e.g., kill, death, threat). This study will use an experimental approach with participants being randomized to either LDLPFC rtfMRI-nf or control rtfMRI-nf where participants receive neural feedback from a region not involved with emotional cognitive control processes. Resting-state fMRI scans and behavioral testing sessions will take place before and after rtfMRI-nf. The specific aims are to examine the impact of LDLPFC rtfMRI-nf on: (1) LDLPFC activity during emotional cognitive control and (2) LDLPFC functional connectivity with other brain regions during rest. Additionally, this study will examine the neural correlates of emotional cognitive control independent of rtfMRI-nf. Thus, the final specific aim is to (3) Investigate relationships between individual differences in LDLPFC engagement, cognitive control performance, trauma history, and sleep quality. To facilitate the relevance of these findings to clinical populations, trauma exposure and sleep quality will be explored as moderators of neural change across time for those in the rtfMRI-nf group. To these ends, this study will use rtfMRI-nf to experimentally investigate the relationship between LDLPFC activity and emotional cognitive control as well as investigate these neural mechanisms independent of rtfMRI-nf. This research will improve our understanding of emotional cognitive control and demonstrate whether this is a modifiable target for intervention in populations with deficits in this domain of function.
Iron deficiency is the most prevalent nutritional deficiency worldwide with one in four estimated to be affected by iron deficiency anaemia. Women of reproductive age are at greatest risk for iron deficiency and anaemia due to iron losses during menstruation and childbirth as well as the increased need for iron throughout pregnancy. However, iron deficiency without anaemia is at least twice as common as iron deficiency anaemia with females aged 11-49 at the biggest risk of all. Despite this, it is commonly left undiagnosed. Those who are iron deficient non-anaemic can still suffer from the same common consequences of iron deficiency anaemia; these include unexplained fatigue, mood changes and decreased cognitive performance. It is postulated that for any cognitive and behavioural change to occur, a complementary change in neural functioning is required. A recent cross-sectional study has identified increases in cognitive demand to produce decrements in measures of cognitive performance and increases in brain activity and metabolic measures; the magnitude of such are evidenced to be directly related to iron status. However, such measures do not provide an estimate of overall oxygen consumption that is specific to the brain in order to be able to associate changes in cognitive performance and energy expenditure specifically to the brain itself. The current study aims to investigate the parallel effects of iron supplementation on cerebral haemodynamics and energy metabolism to determine the ability of iron to modulate whole body energy metabolism and utilisation of metabolic substrates at rest and during cognitive demand in a sample of non-anaemic iron deficient and iron sufficient women of reproductive age.