View clinical trials related to Mental Fatigue.
Filter by:The primary purpose is to test the short-term effects of the acute consumption of two novel beverages made from coffeeberries, the fruit of the coffee plant (Coffea arabica) benchmarked against caffeine on several aspects of cognitive performance. Preliminary studies suggest that flavanols and chlorogenic acids can enhance cognitive performance. It is unknown if drinks formulated with flavanols and chlorogenic acids (without high sugar or caffeine) improve cognition or mood to a similar extent as caffeine. Coffeeberry beverage comparisons will be made to a flavored positive control beverage containing caffeine and a flavored placebo beverage.
Due to the limitations of current approaches to assess emergency paramedics' fatigue, a portable, quick, easy, and objective technique is required to be developed. The aim of the study was to investigate the reliability of automated pupillometry to assess mental fatigue based on a driver simulator.
Mental fatigue is a major problem for stroke survivors and sometimes remains present years after the event. It is often rated as the most persisting and frustrating symptom. For many, mental fatigue has a significant negative effect on rehabilitation, and patients report difficulties with returning to previous levels of participation in their meaningful everyday activities whether at home, work or in the community. The development of effective evidence based interventions have been limited by our understanding of post stroke fatigue. This may be attributed to the fact that the underlying mechanisms for post stroke mental fatigue are unknown. Evolving theories suggest that mental fatigue may be associated with a dysfunction in the cognitive domain of attention. An impairment in the domain of attention may result in previously effortless activities of daily living that require sustained attention to become exhausting. Specific knowledge on the influence of background noise and other distractions on a person's ability to sustain attention after stroke is lacking. This research project will contribute to new and important knowledge in this area. A total of 30 adults will be reviewed at least 2 months after stroke on tasks that require sustained attention. The investigators plan to observe the influence background distraction has on the ability to do these tasks and whether wearing earphones will assist with concentration levels, and reduce fatiguing situations. This project provides a unique opportunity to investigate how a dysfunction in the cognitive domain of attention may be related to the experience of mental fatigue after stroke. The investigators will use a reaction time based test, fatigue questionnaires, alongside the wearing of earphones when examining associations. This knowledge may help to determine who is at risk of developing symptoms of mental fatigue. Furthermore, it may shed a light on possible prevention strategies, and provide more suitable guidance to those affected by mental fatigue.
To investigate the effect of mental fatigue on industrial work performance, biomechanical determinants, (electro-)(psycho-) physiological measures and physical ergonomics. Additionally, the current project wants to evaluate whether or not the Laevo exoskeleton influences the aforementioned parameters when mental fatigue is acutely induced.
The purpose of this project is to provide further insights into the neurophysiology behind the MF-induced impairment in endurance performance. The aim is to perform a randomized controlled trial in which we partly replicate studies of Marcora et al. (2009) and Bigliassi et al. (2017), while extensively monitoring brain activity during the entire protocol (i.e. both cognitive and physical tasks) by using EEG.
The current study is going to investigate the nature exposure intervention on the ability of self-regulation and decision-making skills among mentally fatigued soccer players. The subjects will be instructed to view some nature photos, which can facilitate the recovering process for directed attention and the ability of self-regulation. Thus, to see the improvement in decision-making skills.
In this study, three-dimensional biomechanics , by means of lower limb joint angles and moments (opto-electronic system with synchronised force plate), of landing tasks (anticipated, unanticipated and cognitive dual task) before and after a mental fatigue protocol will be compared in a population of basketball, handball and volleyball players.
15 healthy trained males will volunteer to participate in this study. there will be 2 treatments: Ketone esters supplementation and iso-caloric carbohydrate. The purpose of this study is to evaluate the effect of ketone esters on cognitive function during exercise after induced mental fatigue
The aim of the study is to test a Fasting Mimicking Diet (FMD) for its efficacy on improving muscular resistance and endurance. The investigators will perform a randomized clinical trial to test the efficacy of the FMD on improving muscular strength, muscular resistance and endurance in physically active young adults (18-40 years of age). The study will include two arms: Placebo (Placebo diet) and FMD (3 cycles of 5-day fasting-mimicking diet within two months). Study endpoints will include muscular strength evaluation of lower limbs, cardio-pulmonary responses, neuromuscular function and muscle architecture. Subjects will be evaluated 4 times within 3 months: at baseline (T1), after the 1st cycle of diet (T2), 7 to 15 days after the 3rd cycle of diet maintaining baseline intensity (T3) and with re-assessment of Peak Power Output (T4).
Objective of the study The main objectives of this project are: 1. To assess the influence of mental fatigue on a return-to-play test battery in healthy population 2. To assess the influence of mental fatigue on brain functioning during a balance and reaction time task in healthy population In a later stage, these experiments could be carried out in a clinical context (e.g. in an ankle sprain population). The researchers will use a randomized, placebo controlled, counter-balanced, cross-over design. Thirteen healthy subjects will visit the lab 3 times. On the first visit (familiarisation trial), the investigators will collect the participants' characteristics. The participants will also be familiarized to the procedures and materials of the experiment during this first visit. The second and third visit contain the experimental setup and will proceed as follows: first, the participants will fill in a mental fatigue scale (M-VAS) and motivation scale. Next, the subjects will carry out a functional test battery (hop test, vertical jump test, Y-balance test, and a balance reaction-time test). Session rate of perceived exertion (RPE) is measured to indicate how fatigued the participants feel because of the test battery; also, M-VAS is collected once more. Then, a short cognitive task (Flanker task) is followed by either a long intensive cognitive task (90 minutes Stroop task) or control task (90 minutes documentary). Afterwards, participants have to carry out the Flanker task, fill in M-VAS (2x), perform the same test battery, fill in session RPE and one final fatigue scale (Nasa TLX). Heart frequency and EEG will be measured continuously during the trials.