44 Clinical Trials for Various Conditions
With increasing awareness about physician fatigue and its effect on patient safety, residency programs are increasingly transitioning to a night float call system. In other industries, multiple night shifts in a row can cause a disruption in the circadian rhythm, sleep debt, shift work disorder, that is related to chronic medical conditions such as obesity and cardiovascular disease. We will evaluate the effect of different call structures on resident activity, sleep and self reported measures of wellness using a commercially available Fitbit device.
The purpose of this study is to test the hypothesis that ingestion of the wake-inhibiting drug suvorexant 30 minutes prior to daytime sleep initiation in individuals working overnight shifts will significantly improve both objective (total sleep time, sleep efficiency, wake after sleep onset) and subjective (sleep quality) measures of daytime sleep.
The specific aim of this observational study is to characterize changes in bone turnover makers (BTMs), bone mineral density (BMD), and bone microarchitecture in a cohort of nurses during their first year of night compared to day shift work. The hypothesis is that night shift nurses will have poorer bone health indices at one year compared to day shift nurses.
This small intervention study will determine if simulated short-term night shift work (NSW) negatively alters bone metabolism. The specific aim of the study is to determine if NSW acutely uncouples bone turnover markers (BTMs), if sympathetic tone is a mechanism for this disruption and if a resumption of a normal sleep/wake pattern reverses BTM uncoupling. Our hypothesis is that NSW will reversibly uncouple BTMs via increased sympathetic nervous system (SNS) tone.
Particulate matter exposure during smoke inhalation provokes inflammatory immune responses in people exposed to burning biomass including fire fighters and civilians. Persistent occupational exposure to particulate matter represents a unique hazard for firefighters, underpinning a burgeoning research area. This trial will evaluate the effects of sleep deprivation and circadian rhythm disruption on the inflammatory response to woodsmoke associated particulate matter exposure. Participants will undergo 2 experimental trials in a randomized cross-over design. Participants will have either an 8-hour sleep opportunity or a 4-hour sleep opportunity prior to reporting to lab for a 45 minute simulated firefighting trial (wood smoke associated particulate matter filtered to 2.5 um at a concentration of 250 ug/m\^3, while exercising at a moderate intensity). The effects of sleep restriction and simulated firefighting will be measured.
The current project is a safety and health intervention focused on sleep and fatigue among truck driver teams (pairs), where one driver sleeps in a moving vehicle while the other partner drives. This study is conducted within the Oregon Healthy Workforce Center (OHWC), a NIOSH Center of Excellence in Total Worker Health. We will evaluate engineering and behavioral interventions to improve sleep, reduce fatigue, and impact Total Worker Health. An enhanced cab intervention will alter whole body vibrations during driving and sleep periods, and includes a therapeutic mattress system and an active suspension seat. The enhanced cab will be evaluated alone and in combination with a behavioral sleep intervention adapted from our effective SHIFT (Safety \&Health Involvement For Truckers) program. The interventions prioritize hazard reduction according to the hierarchy of controls, and will be evaluated with a randomized controlled design.
The purpose of this study is to determine whether night time eating that coincides with elevated endogenous melatonin impairs glucose tolerance, particularly in carriers of the MTNR1B risk allele.
People who experience repeated bouts of circadian misalignment, such as shift workers, are at higher risk of cardiovascular disease (CVD) and Type 2 diabetes (T2D) compared to daytime workers. However, the mechanism(s) by which shift work and associated circadian misalignment increase CVD and T2D risk are unknown. This project will examine whether elevated plasma lipids are a mechanism by which circadian misalignment impairs vascular function, insulin sensitivity, glucose homeostasis and muscle lipid accumulation, which could be targeted to prevent and treat cardiometabolic disease in people who chronically experience circadian misalignment, which includes more than 20% of the US workforce.
The aim of the proposed study is to pilot test two behavioral sleep intervention strategies for improving insomnia among night shift working nurses.
Insufficient sleep and circadian misalignment are independent risk factors for the development of obesity and diabetes, yet few strategies exist to counter metabolic impairments when these behaviors are unavoidable. This project will examine whether avoiding food intake during the biological night can mitigate the impact of circadian misalignment on metabolic homeostasis in adults during simulated night shift work. Findings from this study could identify a translatable strategy to minimize metabolic diseases in populations that include anyone working nonstandard hours such as police, paramedics, firefighters, military personnel, pilots, doctors and nurses, truck drivers, and individuals with sleep disorders.
The investigators hypothesize that in patients with shift work sleep disorder, armodafinil will specifically increase brain activity in the frontal cortex parallel with improvements in deficits of fundamental mechanisms of attention.
The primary objective of this study is to evaluate the safety and tolerability of Armodafinil (CEP-10953) administered on a flexible-dosage regimen of 100 to 250 mg/day for up to 12 months to patients with excessive sleepiness associated with a current diagnosis of narcolepsy, obstructive sleep apnea/hypopnea syndrome (OSAHS)(regular users of nasal continuous positive airway pressure \[nCPAP\] therapy), or chronic shift work sleep disorder (SWSD).
The goal of this project is to establish the evidence base for equitable accessibility and implementation of the precision sleep medicine mobile application, SHIFT.
Insufficient sleep has both health and safety risks, but currently there are no quick, accurate and inexpensive ways to measure sleep deficiency. The current study aims to use a cutting-edge technology, small molecule analysis (e.g. metabolomics), to detect compounds in breath that reliably change with sleep-wake state and those whose levels vary by time of day.
1. To determine the effects of tDCS on subjective measures of sleepiness in night-shift workers with shift work disorder. 2. To determine the effects of transcranial direct current stimulation (tDCS) on vigilance in night-shift workers with shift work disorder.
There are three components to this study: a Field Trial, a Shift Worker Survey, and Focus Groups. The Investigators will study the effectiveness, feasibility, and acceptability of an 8-h sleep intervention in older night workers in an operational environment. The overall goal of the Field Trial is to minimize sleep deficiency and negative outcomes resulting from that, including sleepiness and performance impairments during night shift work. The Shift Worker Survey is designed to understand some of the demographic and operational factors that enable or inhibit the ability of individual shift workers to adopt this intervention. The Focus Groups are designed to glean in-depth information from older shift workers who indicate that they are unable or unwilling to adopt an 8-h sleep timing intervention. Understanding these factors will assist in refining and targeting the intervention to those individuals who will be most likely to benefit from the intervention sleep timing strategy.
Firefighters work some of the most demanding schedules known under highly stressful and demanding conditions. The need to work frequent extended shifts and long work weeks leads to acute and chronic partial sleep deprivation as well as misalignment of circadian phase. Sleep disorders are common, costly, and treatable, but often remain undiagnosed and untreated and it is likely that a significant proportion of firefighters suffer from undiagnosed sleep disorders which will further impair their sleep and exacerbate fatigue.In the current proposal, we aim to address the health, performance and safety issues related to fatigue in firefighters and test the effectiveness of a Comprehensive Firefighter Fatigue Management Program (CFFMP) that we have termed 'Operation Healthy Sleep.'
Firefighters frequently work extended duration shifts and long work weeks which have adverse effects on alertness, health, safety and performance. This protocol uses a survey instrument to examine the effects of extended duration shifts on safety outcomes (e.g., motor vehicle crashes, accidents, injuries), health (e.g., diagnosis and treatment of sleep disorders, improved general health indices, decreased number of sick days), and performance (e.g., decreased response time). This study will expand understanding of the nature, scope, etiology and consequences of firefighter fatigue and increase our ability to develop guidelines that can be generalized across fire departments throughout North America. This study could provide an avenue to make lasting policy improvements that could enhance the safety, health, and performance of firefighters.
The purpose of this study is to test the effects of eszopiclone on daytime sleep and overnight wakefulness in shift workers.
The purpose of this study is to determine if a modified version of the Sleep Enhancement Fatigue Reduction Training (SEFRT) system can improve sleep and health-related symptoms and quality of life in experienced shift-working nurses.
The purpose of this study is to determine if a modified version of the Sleep Enhancement Fatigue Reduction Training (SEFRT) system can improve sleep and health-related symptoms and quality of life in shiftwork-naive new nurse graduates.
The purpose of the study is to compare the overnight efficacy and plasma concentration-time profiles of armodafinil and PROVIGIL, after multiple doses, in patients with excessive sleepiness associated with chronic Shift Work Sleep Disorder (SWSD).
This clinical trial aims to evaluate the safety and efficacy of PROSOMNIA Sleep Therapy (PSTx) for individuals suffering from chronic insomnia, sleep deprivation, and REM sleep disorders. Chronic insomnia, characterized by difficulty falling or staying asleep, significantly affects patients and quality of life, mood, and cognitive function. REM sleep disorders, in which the body struggles to enter or maintain restful REM sleep, can worsen these issues. The trial introduces a novel therapy using anesthesia-induced sleep, targeting sleep homeostasis and improving sleep architecture. Objectives: The primary goals of the trial are to determine: 1. Whether PROSOMNIA Sleep Therapy increases the quality of REM sleep. 2. Whether PSTx increases the duration of REM and/or NREM sleep. 3. Whether PSTx decreases the time it takes participants to fall asleep (sleep onset latency). Participants will receive ONE (1) PROSOMNIA Sleep Therapy session lasting between 60-120 minutes. Each session uses Diprivan/Propofol to induce sleep, and is monitored via an EEG to ensure proper sleep stages, particularly REM sleep. Participant Criteria: Inclusion: Adults aged 18-65 with diagnosed or undiagnosed chronic insomnia or sleep deprivation. Exclusion: Patients with severe obesity, significant cardiovascular, neurological, or psychiatric conditions, or those with an ASA status above II. Study Design: This trial is non-randomized, single-arm and open-label, with all participants receiving the PSTx. The trial does not include a comparison group, as the focus is on evaluating the immediate, direct effects of the therapy. Participants will undergo continuous EEG monitoring during therapy sessions, allowing researchers to track brain activity and sleep stages in real-time. This method ensures that sleep cycles, particularly REM sleep, are optimized for therapeutic benefit. Therapy Methodology: PROSOMNIA Sleep Therapy leverages anesthesia to mimic natural sleep patterns and enhance the efficiency of REM sleep. Diprivan/Propofol is used to induce REM sleep, while EEG monitoring tracks and maintains proper sleep architecture throughout the session. The therapy promotes the clearance of adenosine, a compound that builds up during wakefulness and drives the need for sleep. Adenosine is cleared during REM sleep, reducing sleep pressure and improving cognitive function. Outcome Measures: Primary Outcomes: Researchers will measure the increase in REM sleep duration, improvement in sleep quality (via self-reported questionnaires), and a reduction in sleep onset latency. Secondary Outcomes: These include changes in mood, cognitive function, and blood serum uric acid levels. Patient-reported outcomes will also be tracked through tools like the PROSOMNIA Sleep Quiz, which is specifically designed for PSTx. Significance: Chronic insomnia and REM sleep disorders affect millions globally, leading to cognitive impairment, mood disturbances, and poor overall health. Traditional treatments, including pharmacological approaches and Cognitive Behavioral Therapy for Insomnia (CBT-I), often provide suboptimal results for many individuals. PSTx offers a novel, therapeutic approach to restoring sleep balance and enhancing the overall quality of sleep, particularly for those who have not responded to conventional treatments. Study Process: Recruitment and Baseline Assessments: Participants undergo a comprehensive sleep assessment, including sleep questionnaires and polysomnography, to establish a baseline for sleep quality and duration. Blood serum uric acid levels will also be measured to track any biochemical changes due to therapy. Therapy Sessions: Only one (1) PROSOMNIA Sleep Therapy session will be administered, with the session lasting between 60-120 minutes. Diprivan/Propofol is used to induce sleep, and EEG will monitor brain activity to ensure the proper balance of sleep stages. Post-Therapy Follow-up: Follow-up assessments will occur at 24 hours, 7 days, and 30 days post-treatment. Researchers will analyze the therapy effects on REM sleep, mood, cognitive function, and other health indicators. Potential Implications: If successful, this trial could revolutionize how we treat sleep disorders by targeting the underlying mechanisms of sleep pressure and REM sleep disruption. PROSOMNIA Sleep Therapy may offer a safe, effective, and immediate alternative for patients who have exhausted other treatment options. Key Concepts: Homeostatic sleep drive, (Process S), caused by adenosine buildup during wakefulness, is disrupted by chronic insomnia. This impacts cognitive function health and recovery. Anesthesia-induced REM sleep via PSTx helps regulate this homeostatic sleep stage, offering deeper and more restorative sleep compared to other sleep therapies. The study uses statistical methods like ANOVA and Chi-square to measure outcomes.
Study investigators want to learn more about the underlying biological clock and to see if the timing of that clock can be estimated from a single blood sample.
Sleep disorders are commonly under-recognized in the primary care setting and available screening tools are often are limited. The study inestigators hypothesize that the use of a novel subjective sleep vital sign (VS) will improve recognition of patients with sleep disorders and can be utilized to track outcomes to sleep therapy.
The primary objective of the Nuvigil/Provigil Pregnancy Registry is to characterize the pregnancy and fetal outcomes associated with Nuvigil and Provigil exposure during pregnancy.
The overall goal of the present application is to test the hypothesis that shift workers, who are chronically exposed to circadian misalignment and sleep loss, have a higher cardio-metabolic risk than day workers, and that the accumulated sleep debt and the degree of circadian misalignment both predict their elevated cardio-metabolic risk.
A 12 Month, Open-Label, Flexible Dosage Extension Study of the Safety and Efficacy of Armodafinil (CEP-10953) in the Treatment of Patients with Excessive Sleepiness Associated with Narcolepsy, Obstructive Sleep Apnea/Hypopnea Syndrome, or Chronic Shift Work Sleep Disorder
Insomnia and daytime sleepiness are common complaints among night shift workers, but effective sleep treatments in shift workers are lacking. The aim of this Phase IV double-blind, placebo-controlled, randomized study is to test whether a dual orexin antagonist, Lemborexant (5mg or 10mg), which would be expected to block the clock-driven orexin-mediated wakefulness during the day, will increase daytime sleep time in shift workers who complain of difficulty sleeping during the daytime compared to placebo.
Purpose: To evaluate the influence of probiotic supplementation on body composition and other markers of health in occupational shift-workers. Participants: Healthy, overweight females (ages 22-55 yrs) who are employed on a shift-working schedule. Procedures (methods): In a randomized, placebo-controlled intervention, subjects will complete 3 different testing sessions (pre-screening, 1 baseline, 1 post-testing session) as well as a 6-week intervention period. Prescreening will include written informed consent, a health history questionnaire, baseline anthropometric measures, assessment of resting heart rate, and exercise protocol familiarization. Baseline testing will involve body composition, a fasted blood draw, mood surveys, and an exercise treadmill test. Subjects will be randomized to a treatment group (multi-strain probiotic or placebo) for 6 weeks of supplementation that includes 2 electronic contacts, followed by post-testing that will occur in the same fashion as baseline testing.