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Active clinical trials for "Sleep Deprivation"

Results 31-40 of 242

Effect of Acute Sleep Restriction on Responses to Hypoxia

Sleep DeprivationHypoxia

At altitude, humans are exposed to environmental hypoxia induced by the decrease in barometric pressure. On duty or in training, mountain troops, paratroopers or aircrew are regularly exposed to altitude. The effects of altitude on humans occur gradually from 1500 m and depend on both the duration of exposure and the altitude level. Cognitive disorders can occur from 3500 m (threshold of disorders) but there is a very large inter-individual variability. The countermeasure to altitude hypoxia is oxygen but its use is not systematic between 3000 and 4000 m. Its use depends on the duration of exposure, without clearly established standards. Incapacitating effects on the operational capacity and health of soldiers can therefore occur as early as 3500 m. In operations or during training, altitude exposure is often associated with a significant sleep debt (particularly during night or early morning missions), jet lag or precarious rest conditions in overseas operations. These sleep restrictions promote the degradation of mental performance with effects similar to those observed in hypoxia. The combination of these constraints induces a physiological stress which can favour alterations in mental performance, an increase in incapacity, intolerance to altitude or the occurrence of altitude-related pathologies in military personnel. This could occur in particular in the operational zone around the threshold of disorders (3500 m) where the indication of oxygen is discussed. The objective of this study is to assess the impact of acute sleep restriction on hypoxia tolerance.

Recruiting22 enrollment criteria

Tissue-specific Effects of Insufficient Sleep

Healthy

This study plans to learn more about how sleep loss impacts the way the body responds to sugar. This work will have important implications for development of treatments and countermeasures for people who are not able to get enough sleep for various reasons.

Recruiting9 enrollment criteria

Biomarkers of Increased Free Living Sleep Time

Sleep DeprivationInsufficient Sleep Syndrome1 more

This protocol will increase sleep duration in participants who maintain less than 6 hours sleep per night, to target the recommended 7 hours of sleep per night. The focus of this study is determine how increasing nightly sleep duration in these individuals who maintain less than 6 hours sleep per night changes their plasma metabolome and insulin sensitivity. The primary outcome will examine changes in branched-chain amino acids and the secondary outcome will examine changes in insulin sensitivity. The investigators will also determine if changes in plasma metabolites can be used as a biomarker to discriminate between adequate versus insufficient sleep.

Recruiting16 enrollment criteria

Menstrual-phase-dependent Differences in Response to Sleep Loss

Sleep Deprivation

This study is designed to assess how healthy premenopausal women respond to different patterns of sleep loss at different times in the menstrual cycle.

Recruiting15 enrollment criteria

Pilot Study: Establishing Glutamatergic Changes in Rapid Antidepressant Effects of Sleep Deprivation...

Major Depressive Disorder

In the treatment of Major Depressive Disorder (MDD), total sleep deprivation can produce rapid but short-lasting improvements in mood. In order to develop a new generation of treatments with rapid and sustained efficacy, a better understanding of the mechanism of action is urgently needed. One candidate mechanism is the modulation of synaptic strength mediated by glutamatergic activity as sleep deprivation has been suggested to increase synaptic strength. Although determining how sleep deprivation impacts the glutamatergic system is essential to isolating its mechanism of action, the invasive nature of most assessment methods has limited our ability to do so in humans. The proposed research aims to determine if changes in glutamatergic activity, reflecting the modulation of synaptic strength, underlie the antidepressant effects of sleep deprivation. In this project, the investigators will utilize a novel measure of glutamate imaging, GluCEST, to assess changes in glutamatergic activity, in addition to using a proxy measure, waking EEG theta activity, to assess synaptic strength following total sleep deprivation. Ten individuals (aged 25-50) with a DSM-V diagnosis of MDD will undergo baseline GluCEST imaging and waking EEG prior to and following approximately 30 hours of total sleep deprivation. Both clinician-administered and subjective mood measures will be collected. It is predicted that sleep deprivation will improve mood and increase glutamatergic activity and synaptic strength. Results from this project have the potential to identify the modifiable mechanisms by which rapid antidepressants work which could ultimately stimulate the development of novel interventions that work through the modulation of glutamatergic activity.

Recruiting5 enrollment criteria

Compromised Sleep and Circadian Health After Critical Illness: From Diagnosis to Prediction (CHRONOCRIT)...

Circadian DysregulationSleep Fragmentation

The intensive care unit (ICU) is recognizably detrimental to sleep and circadian health, and critical survivors frequently report the presence of alterations in this regard after hospital discharge. However, an appropriate evaluation of sleep and circadian rhythms is often neglected given the high associated cost and/or the need of collaboration of the patients. In this project, the investigators propose alternatives to ultimately improve the management of sleep and circadian health after critical illness. The researchers will evaluate the role of microRNA (miRNAs) expression profile in identifying the compromised sleep and circadian health of critical patients during the ICU stay, in the short (3 months after hospital discharge), and in the long-term (12 months after hospital discharge). Also, models based on machine learning techniques will be developed to predict adverse outcomes in this regard after hospital discharge.

Recruiting6 enrollment criteria

Executive Functioning and Sleep Fragmentation in COVID-19 Patients

COVID-19Healthy Volunteers

This project aims to investigate executive functioning abilities (primary outcome) and quality of sleep (secondary outcome) in patients with COVID-19 (while distinguishing between those with and without sleep fragmentation), compared with an age- and education matched control group of healthy individuals who did not experience contagion. Prefrontal electrical activity will be recorded with EEG in patients, and related to sleep and cognitive-executive metrics. The main questions it aims to answer are: is executive functioning impaired in COVID-19 patients compared with individuals who were not infected? is there a relationship between altered sleep and impaired executive functioning in COVID-19 patients? is such relationship related to altered prefrontal brain activitity in COVID-19 patients?

Recruiting6 enrollment criteria

A Personalized Mind-Body Intervention (MBI) for Improving Sleep Among Women Working in Healthcare...

Sleep Insufficiency

The goal of this pilot study is to determine if a personalized trial testing a Mind-Body Intervention (MBI) can produce a meaningful increase in the average daily sleep duration among women 40-60 years of age working in healthcare. A total of 60 eligible participants will be randomized to one of two possible orders of treatment exposure comprised of three components: mindfulness, yoga, and guided walking, each assigned in 2-week block sequences for a total period of 12 weeks. The study will include a 2-week baseline period during which their baseline sleep duration and adherence to the Fitbit wear and survey submission will be assessed. Following the 2-week run-in period, participants deemed eligible and achieved at least 80% adherence of Fitbit wear and survey submission will be randomized to one of the two intervention arms. Exploratory aims include assessments of sleep quality, physiological factors and their direct and indirect relationships with participants' perceived stress, anxiety, and depression.

Recruiting19 enrollment criteria

Apnea, Stroke and Incident Cardiovascular Events

StrokeSleep-disordered Breathing7 more

This prospective cohort study aims to compare the proportion of cardiac or cerebrovascular events after a first stroke, a first transient ischemic attack (TIA) or recurrent TIA, between sleep-disordered breathing (SDB) and non-SDB (control) patients, one year after SDB diagnosis, performed 3 months after stroke onset. The primary outcome is a composite endpoint composed of cardiac or cerebrovascular events regrouping: death from any cardiac or cerebrovascular cause, non-fatal stroke, and non-fatal acute coronary disease. 1620 patients, in the acute phase of a first stroke, TIA or recurrent TIA will be included in the cohort. Clinical, neuroimaging, sensorimotor, cognitive and biological parameters will be collected at inclusion. Three months after stroke or TIA onset, polysomnography will be performed for SDB diagnosis. Patients will be considered as having SDB for an Apnea-Hypopnea Index (AHI) > 15 events/hour, or to the control group otherwise. The same clinical, imaging, cognitive and biological assessments than during the first visit will be performed; incident (new) cardiovascular events will be collected. Three months later, and at 1, 2, 3, 4 and 5 years after SDB diagnosis, the same clinical, cognitive, sensorimotor, and sleep-related evaluations will be performed. In addition to the aforementioned parameters, incident cardiovascular outcomes will be collected, at the same time points. The primary study outcome will be retrieved one year after stroke onset.

Recruiting14 enrollment criteria

Effect of Sleep Debt on Neurophysiological Responses to Heat Exposure

Heat; ExcessSleep Disorder

Many people are required to work in stressful situations combining sleep debt and hot environmental conditions. If the effect of sleep debt on cognitive performance is proven, this effect could be increased, during heat exposure, through the deleterious effects of sleep debt on thermoregulatory abilities. These alterations may favour the occurrence of accidents. The changes in cognitive performance induced by hyperthermia are also poorly characterised and often not dissociated from the effects of dehydration. Little is known about the effects of the combination of sleep debt and heat exposure on mental performance. Describing and understanding the alterations induced by this combined situation could provide a better understanding of the mechanisms explaining the deterioration of performance in hot conditions and promote the development of appropriate countermeasures.

Recruiting15 enrollment criteria
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