View clinical trials related to Dyssomnias.
Filter by:The preservation surgery of the anal sphincter has become a standard procedure for the treatment of rectal cancer and is now possible even when the tumor is close to the anus, thanks to the advancement of surgical techniques. This procedure allows patients to avoid a permanent artificial anus and enables them to evacuate through the anus, maintaining the continuity of the intestine, making it a highly preferred surgical option. Additionally, advancements in tumor treatments have led to improved long-term survival rates. However, this anal sphincter preservation surgery inevitably can cause functional abnormalities in the rectum, and around 90% of patients experience changes in bowel habits after surgery. The characteristic symptoms occurring after rectal cancer surgery, such as diarrhea, urgency of bowel movements, frequent bowel movements, and fecal incontinence, are referred to as Anterior Resection Syndrome (ARS). Particularly, symptoms following low anterior resection surgery for lower rectal cancer are termed Low Anterior Resection Syndrome (LARS). These symptoms are most severe immediately after surgery, persisting up to 1-2 years, with some improvement over time. However, in many patients, LARS can remain a lifelong challenge, significantly impacting their quality of life. Currently, there is no definitive method to treat LARS, and symptom management is achieved through empirical treatment methods or medications. Many patients with LARS experience these symptoms predominantly at night, and it is presumed that their sleep quality is severely compromised, significantly affecting their overall quality of life. However, there is a lack of research on the prevalence of such patients and the appropriate treatments for them.
Randomized, controlled, double-blind intervention study, with four parallel branches depending on the product consumed, to analyze the efficacy of different types of milks on the improvement of sleep quality.
In order to assess the efficacy of the rhythm stabilization component of Health Rhythms' product in addressing sleep problems, investigators will recruit 128 outpatients over the age of 18, who are in early recovery (at least 2 weeks but no more than 6 months) from Alcohol Use Disorder (AUDIT-C score >4) and are experiencing sleep problems (ISI score >/= 10). 64 of these individuals will be randomly allocated to receive the full HealthRhythms package (sensing, trending, and stabilization) on their smartphones, while 64 will be asked to consent to sensing only. The duration of the study will be 14 weeks. The primary outcome measures of the RCT will be the ISI (Insomnia Severity Index). The investigators hypothesize that those receiving the full package will demonstrate lower levels of sleep disturbance.
Sleep disorders can impair cognitive function, decision-making ability, exercise capacity, and immune system.Sleep disorders, which may occur in the perioperative period as short-term or long-term, affect many patients. Patients have to face with perioperative sleep disorders, and this situation can continue for a long time after surgery. Anesthetic agents may cause sleep disturbances in the postoperative period. Anesthetics can disrupt the normal sleep-wake cycle and thus cause sleep insufficiency and poor sleep quality. The relationship between general anesthesia and postoperative sleep disorders is still unclear. It is advantageous to identify patients with pre-existing sleep disorders, since the risk of postoperative sleep disturbance is high. The investigators hypothesis that regional anesthesia does not disrupt the circadian rhythm compared to general anesthesia, is more successful in pain control, and thus provides a better sleep quality for patients.
Hypothesis: Kiwifruit contains antioxidants and serotonin which may be beneficial in the treatment of sleep disruption. Aim: to assess the effects of daily intake of kiwifruit on sleep quality, fatigue, and BMI among Saudi adults with poor sleep quality. Methods: Twenty-six female participants (14 cases, and 12 controls) were included. All participants were aged ≥18 years and were Saudi and had poor sleep quality. Pregnant, lactating and participants with any chronic diseases such as cardiovascular or neurological diseases, and history of using herbal or medications for inducing sleep for the last two months were excluded. Participants in the case group consumed 2 kiwifruits 1 hour before bedtime nightly for 6 weeks and the control group did not consume kiwifruit. The Pittsburgh Sleep Quality Index (PSQI) questionnaire was used to assess sleep quality before and after kiwi consumption (score ≥ 5 indicates poor sleep quality), Fatigue Severity Scale (FSS) was used to assess fatigue and anthropometrics were measured based on the WHO guidelines. After 6 weeks, sleep quality, fatigue and BMI were compared between cases and controls. Kiwifruit consumption may improve sleep quality in adults with self-reported poor sleep quality. Further investigation of the sleep promoting properties of kiwifruit is required.
Poor sleep is common among college students and likely contributes to stress. The investigators developed a brief, remotely-delivered intervention and tested whether it improves sleep hygiene and reduced sleep disturbance and stress among undergraduates.
This study tests a pilot educational sleep intervention for children after critical care hospitalization.
A randomized, double blind, placebo controlled, parallel group study to evaluate the efficacy of UP165 on sleep quality and mood state in healthy adults
The investigators designed an RCT aimed at 1) exploring the effectiveness of combining TC with rTMS for synergistically improving sleep disturbances in community-dwelling older adults, 2) investigating the mediating roles of arousal states as the underlying mechanism of the potential beneficial effects, and 3) evaluating the feasibility and safety to inform the clinical practice. The investigators hypothesized that integrating TC and rTMS can affect the different dimensions of the arousal system to improve sleep disturbances with optimized clinical outcomes.
Adolescents with type 1 diabetes (T1D) experience more disturbed sleep compared to their healthy peers, especially because they tend to spend less time in deep sleep, the most restoring part of sleep, potentially impacting diabetes management. Disturbed sleep may adversely affect diabetes management which requires day-to-day decision-making, emotional and behavioural regulation, attention, and planning. Despite a massive increase in new technology, more than 50% of adolescents do not reach their glycaemic target. Lack of sleep impairing diabetes management including blood glucose monitoring may play an important role in reaching the goal. For approximately 4000 children and adolescents in Denmark living with T1D, sleep disturbances may therefore account for short and long-term diabetes complications. Our overall aims are to investigate: (1) If and how glycaemic variability (GV) influences sleep quality and sleep stages and (2) if and how poor sleep quality influences time-in-range (TIR), time-above-range (TAR) and time-below-range (TBR) the following day.