View clinical trials related to Sleep.
Filter by:DARIDOR-ALZ is a phase IV clinical trial designed to evaluate both the efficacy and safety of daridorexant, a selective dual orexin receptor antagonist that blocks the actions of the orexin neuropeptides at both orexin-1 and orexin-2 receptors, in selected populations of MCI and mild-to-moderate AD patients with insomnia complaints.
Habitual short sleep duration (< 7 hours/night) increases the risk of cardiovascular disease (CVD) and all-cause mortality. Yet most adults, especially emerging adults (i.e., 18-25 years) do not achieve the National Sleep Foundation recommendation of 7-9 hours of sleep each night. Additionally, the American Heart Association recently included sleep duration in the "Life's Essential 8". This recent development emphasizes the importance of sleep and the need to advance our understanding of how sleep impacts cardiometabolic health (CMH), particularly in emerging adults, a population whose CVD risk trajectory is malleable. Specifically, emerging adulthood is a critical age window when age-related loss of CMH accelerates. Based on my previous work and others, both self-reported and objective measures of poor sleep (e.g., duration, variability) are linked to early signs of elevated CVD risk in emerging adults, such as microvascular dysfunction and elevated central blood pressure (BP), which precede the development of hypertension.
This study is to evaluate the efficacy of a probiotic supplement on weight management and metabolic health. This study will be conducted as a hybrid trial consisting of both in-person visits and virtual assessments. Two groups will be included: the intervention (SlimBiotics Probiotic) and placebo. The SlimBiotics probiotic formula is the first plant-based probiotic targeting weight management and metabolic health. Other competing probiotics are isolated from humans (feces) but the strains in SlimBiotics were isolated from a fermented plant (millet porridge cereal). This product contains 3 probiotic strains: Limosilactobacillus fermentum K7-Lb1 Limosilactobacillus fermentum K8-Lb1 Limosilactobacillus fermentum K11-Lb3
This study is to evaluate the efficacy of a postbiotic supplement on weight management and metabolic health. This study will be conducted as a hybrid trial consisting of both in-person visits and virtual assessments. Two groups will be included: the intervention (SlimBiotics postbiotic) and placebo. The SlimBiotics postbiotic formula is the first plant-based postbiotic targeting weight management and metabolic health. Other competing postbiotics are isolated from humans (feces) but the strains in SlimBiotics were isolated from a fermented plant (millet porridge cereal) This product contains L. fermentum K8 Postbiotic.
Acting adaptively requires quickly picking up on structure in the environment and storing the acquired knowledge for effective future use. Dominant theories of the hippocampus have focused on its ability to encode individual snapshots of experience, but the investigators and others have found evidence that it is also crucial for finding structure across experiences. The mechanisms of this essential form of learning have not been established. The investigators have developed a neural network model of the hippocampus instantiating the theory that one of its subfields can quickly encode structure using distributed representations, a powerful form of representation in which populations of neurons become responsive to multiple related features of the environment. The first aim of this project is to test predictions of this model using high resolution functional magnetic resonance imaging (fMRI) in paradigms requiring integration of information across experiences. The results will clarify fundamental mechanisms of how humans learn novel structure, adjudicating between existing models of this process, and informing further model development. There are also competing theories as to the eventual fate of new hippocampal representations. One view posits that during sleep, the hippocampus replays recent information to build longer-term distributed representations in neocortex. Another view claims that memories are directly and independently formed and consolidated within the hippocampus and neocortex. The second aim of this project is to test between these theories. The investigators will assess changes in hippocampal and cortical representations over time by re-scanning participants and tracking changes in memory at a one-week delay. Any observed changes in the brain and behavior across time, however, may be due to generic effects of time or to active processing during sleep. The third aim is thus to assess the specific causal contributions of sleep to the consolidation of structured information. The investigators will use real-time sleep electroencephalography to play sound cues to bias memory reactivation. The investigators expect that this work will clarify the anatomical substrates and, critically, the nature of the representations that support encoding and consolidation of novel structure in the environment.
The investigators propose to examine the potential effects of the Frequen- ZZZ sleep pad - a noninvasive, unobtrusive appliance that generates a localized low-level electromagnetic field via radiofrequency, and that is used on the bed - on multiple sleep outcomes in an 8-week randomized crossover study, and to calculate the effect sizes of the intervention to inform power and sample size for future studies.
The purpose of this clinical trial is to investigate the feasibility and efficacy of non-invasive transcranial alternating current stimulation (tACS) at gamma frequency in enhancing memory recall and modulating sleep network dynamics measured by at-home electroencephalography (EEG) in healthy elderly people. Eligible participants will first collect sleep EEG at home for one night to acclimate to the data collection during sleep. Participants are then randomized into first undergoing either tACS at gamma band frequencies (i.e. 40Hz) or tACS at a control frequency (i.e. 21Hz). Stimulation is administered in the lab during a cognitive testing battery that includes memorizing items. After a night of sleep with EEG at home, participants return to the lab the following day to measure memory recall. Recall is performed again after five days. This sequence of encoding during stimulation in the lab, sleep EEG at home for one night, and recall is then repeated for the other stimulation condition about a week later. Participants are wearing an actigraphy wristband throughout the study period.
Vasomotor symptoms are the most common symptoms seen during climacterium. The hypoestrogenic state causes dysfunction of hypothalamic preoptic area, a thermoregulatory center. The sympathetic overactivation during the hot flashes is associated with awakening during sleep and have a negative impact on cardiac indexes and vascular reactivity. Therefore, hot flashes are accepted as subclinical cardiovascular risk factor. The association between the severity of the hot flashes and cardiovascular risk may have an epigenetic background. Recently, methylation changes of DNA was found to be associated with clinical and subclinical cardiovascular disease risk (atherosclerosis and hypertension etc.). A transposable element in the DNA, Long interspersed nuclear elements (LINE-1), was found to be hypomethylated in cases with ischemic heart disease and stroke. Therefore, the expression of repeating elements in the DNA (LINE-1 and ALU) may be considered as a mediator in the ischemic heart disease. Until now, menopausal age, vasomotor symptoms and epigenetic and biological aging have been evaluated. However, the epigenetic impact of severe vasomotor symptoms in postmenopausal women with low cardiovascular disease risk profile has not been evaluated. In this study, we aimed to evaluate the epigenetic basis of cardiovascular disease risk for women with vasomotor symptoms which disturb sleep by assessing the methylation levels of ALU and LINE-1.
The goal of this randomized controlled trial is to examine the effects of a walking intervention (3 walks per week for a period of 4 weeks) in a nature vs. urban setting on the wellbeing of young adult postsecondary students. We will examine changes in positive and negative affect for participants assigned to the nature condition vs those assigned to the urban condition (primary outcome). We will also examine changes in reported depression and anxiety symptoms, perceived stress levels, sleep quality, mindfulness and wellbeing (secondary outcome).
Cardiovascular disease (CVD) is the number one cause of death globally and high blood pressure (i.e., hypertension) is the leading modifiable risk factor for CVD and all-cause mortality. Advancing age is the primary risk factor for hypertension and CVD. Moreover, compared to younger adults, older adults exhibit reduced nocturnal dipping of blood pressure resulting in elevated nighttime blood pressure values, which are a better predictor of cardiovascular outcomes than daytime blood pressure. Intriguingly, recently published rodent data suggests that ketone supplementation protects against hypertension, blood vessel dysfunction, and kidney injury. Whether ketone supplementation provides vascular health benefits in humans remains to be determined. Therefore, the investigations seek to conduct an acute ketone supplementation study to determine whether ketone supplementation may restore a more healthy nighttime blood pressure phenotype in middle-aged and older adults. The investigations will also determine whether ketone supplementation influences nocturnal heart rate variability, a non-invasive of autonomic function that may be influenced by ketone supplementation in a manner that influences blood pressure.