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Showing 1-8 of 8 trials
NCT06912256
The goal was to evaluate the influence that chronic sleep restriction may have on football players tactical performance during small-sided games. By using a relative sleep restriction (i.e., by reducing the normal sleep duration by 15%) instead of an absolute sleep restriction (e.g., 3-4 hours), different sleep schedules were applied, according to the players individual sleep profile. It was hypothesized that the player's performance would be impaired, particularly their tactical behaviors when performing a 4x4 small-sided game format.
NCT06251362
This research aims to investigate the interplay between menstrual cycles, sleep patterns, and athletic performance. Before experimental sessions, participants will maintain menstrual diaries for three months and complete assessments for sleep disorders and chronotype. Sleep duration will be objectively measured over five nights using actigraphy, complemented by sleep-related data from an actigraph and the Karolinska Sleep Diary. The study involves two sessions: normal sleep (based on habitual duration) and restricted sleep (reduced by 3 hours). Athletes will engage in a simulated match-play game before both sessions, followed by comprehensive performance tests the next day. Blood samples will be collected at three intervals to analyze hormonal profiles (including progesterone, and estradiol), markers of muscle damage, inflammation, stress (such as TNF-α, IL-6, CRP, myoglobin, cortisol, testosterone), and brain-derived neurotrophic factor (BDNF). On Day 1, pre- and post-training blood samples will be obtained, and participants will wear an actigraph, adhere to specified bedtime routines, and report activities (restricted sleep group). Day 2 involves completing a sleep diary, refraining from caffeine, responding to questionnaires assessing readiness to train and mood, and undergoing performance tests followed by self-reporting of pain levels and perceived exertion using established scales (VAS, RPE 6-20).
NCT04211506
This study is designed to assess neurobehavioral performance, as well as genetic and other physiological changes associated with variations in timing and quantity of sleep.
NCT05524701
The study aims is to investigate the effects of sleep restriction on sweet and fat taste perception and preference in both fasted and fed states. This is a randomised crossover trial with sleep restriction (4 hours per night for 2 nights) and normal sleep (at least 8 hours sleep for 2 nights) conditions, with a four-week washout period between conditions.
NCT03525184
Physical and psychological stress on Warfighters during training and operational missions can suppress immune responsiveness. Skin wound models can be used to detect changes in immune function. Investigators have recently demonstrated that relatively modest sleep disruption degrades immune response at the site of the disrupted skin barrier and delays the initial restoration of the skin barrier. Provision of additional protein and a multi-nutrient beverage during and after sleep restriction seems to mitigate decrements in local immune function, without producing detectable effects on initial restoration of the skin barrier. However, the prior work used a parallel-group study design and inter-subject variability may have made it more difficult to detect significant differences in skin barrier restoration between participants receiving the nutrition intervention versus those receiving the placebo. Therefore, the purpose of the proposed cross-over study is to test the efficacy of a multi-nutrient beverage and additional protein (1.5 g protein per kg body weight versus 0.9 g protein per kg body weight) on immune function and the initial restoration of the skin barrier consequent to an operational stressor (i.e., 72-h sleep restriction). The effect of sleep restriction on a friend-foe marksmanship task, flow state, and measures of cognitive and neuromotor performance, will be investigated as a sub-study (Appendix A). Additionally, the effects of sleep restriction on appetite physiology, eating behaviors and intestinal permeability will be tested. Research will be conducted in a laboratory environment using male and female Soldiers from the human research participant detachment (NSRDEC), or Soldiers or civilians at NSRDEC and/or USARIEM. Participants in the study described herein (n = 20) will be exposed, in a single-blind, cross-over design to a \~72 hour normal sleep control phase, and to 2 periods of \~72 hours of sleep restriction (monitored in laboratory with \~2-h sleep per night) during which time eight blisters will be induced via suction on participant's forearm and the top layer of blisters will be removed to reveal the dermal layer of skin. In the normal sleep trial, participants will consume \~0.9 g protein per kg body weight per day and a placebo beverage during (3 days). In the first sleep restriction trial, participants will consume \~0.9 g protein per kg body weight per day and a placebo beverage during (3 days) and after (5 days) sleep restriction; and, in the second sleep restriction trial (after at least two weeks wash-out) participants will instead consume \~1.5 g protein per kg body weight and a multi-nutrient beverage (arginine: 20 g·d-1, glutamine: 30 g·d-1, zinc sulfate: 24 mg·d-1, vitamin C: 400 mg·d-1, vitamin D3: 800 IU·d-1 and omega-3 fatty acids: 1 g·d-1). Outcome measures include immune function (e.g., circulating markers of inflammation, cytokines at the blister site, and secretory immunoglobin A), skin barrier restoration time (by transepidermal water loss), subjective appetite ratings, appetite-mediating hormone concentrations, food preferences and cravings, gut microbiota composition, and intestinal permeability. Findings from this study will determine if a nutritional intervention attenuates the loss of immune responsiveness to a military relevant stressor (i.e., sleep restriction), and will determine the effects of acute sleep restriction on appetite, gut microbiota composition, and intestinal permeability.
NCT02171273
The overall objectives of the proposed study are to examine the consequences of chronic circadian disruption and chronic sleep restriction on metabolic function in healthy adults.
NCT02130791
Insufficient sleep is common, affecting 20-40% of adults, and resulting from sleep disorders, medical conditions, work demands, stress/emotional distress, and social/domestic responsibilities. It produces significant social, financial and health-related costs, and it has increasingly become a major public health concern as population studies worldwide have found that reduced sleep duration is associated with increased risks of obesity, morbidity, and mortality. It is well established that sleep loss causes fatigue and sleepiness, as well as errors and accidents that are due to its adverse neurobehavioral effects on alertness, mood, and cognitive functions. However, there are substantial, trait-like differences among people in the extent to which they experience such neurobehavioral deficits when sleep deprived. Common genetic variations involved in sleep-wake, circadian, and cognitive regulation may underlie these large inter-individual differences in neurobehavioral vulnerability to sleep deprivation, though it remains unclear whether different types of sleep deprivation involve the same phenotypic responses and same genotypic contributors. This project will be the first large-scale investigation of markers of differential cognitive vulnerability to both acute total sleep loss and chronic partial sleep loss. It will identify individuals who are at significant risk for fatigue and severe impairments from sleep loss. A total of 110 healthy adults will undergo a 13-day laboratory protocol to thoroughly characterize their cognitive, psychological and physiological responses to two of the most common forms of sleep loss--acute total sleep deprivation (1 night of sleep loss) and chronic partial sleep deprivation (5 nights of sleep limited to 4 hr). The findings from this study will represent a critical first step toward tailoring appropriate follow-up interventions for sleep loss and its symptomatic relief by finding predictors of at-risk individuals who should avoid sleep loss whenever possible, and/or seek effective countermeasures. Whether or not markers of neurobehavioral vulnerability to sleep loss are identified, the results of the project will help inform public policies pertaining to the need for adequate sleep and for countermeasures for sleep loss, and also will further our understanding and management of vulnerability to excessive sleepiness due to common sleep and medical disorders.
NCT01259895
The purpose of this study is to determine the effect of different time of sleep restriction on control of food intake and metabolism of obese and normal subjects.