View clinical trials related to Sleep Disorder.
Filter by:The randomized clinical trial will aim to analyze the influence of binary and quaternary rhythm through a protocol on motor symptoms, sleep, fatigue and quality of life in individuals with Parkinson's disease. The study design with a randomized clinical trial, including individuals diagnosed with Parkinson's Disease, will be divided into two groups: 1) Control group 2) Experimental group. Cognition, balance, gait freezing, functional mobility, quality of life, sleep, daytime sleepiness and fatigue will be evaluated. Through the application of binary and quaternary rhythm protocol for a period of 12 weeks. First, the descriptive statistics (mean, standard deviation and percentage) will be used to know the data, then the normality calculation using the Kolmogorov Smirnov test will be used to choose the statistical tests. All information will be collected before and after the intervention period. For statistical analysis, use the SPSS statistical package, version 20.0. (Kolmogorov-Smirnov or Shapiro-Wilk test) for the selection of statistical tests.
Validation study of a novel sleep Device compared to a traditional sleep study.
The aim of this study was to analyze the effects of strength training on sleep quality and daytime sleepiness in institutionalized adolescents (14 to 19 years of age). Thirty-one adolescents were randomly assigned in two sample groups: intervention group (IG, n = 19) and control group (CG, n = 12). Anthropometric measures were performed (height and body mass) and BMI was determined. Sleep quality and daytime sleepiness were assessed using the questionnaires, Pittsburgh Sleep Quality Index (PSQI) and Epworth Sleepiness Scale (ESE), and total sleep time by accelerometer. Physical training (2x / week) was performed for 12 weeks. The OMNI Perceived Exertion Scale for Resistance Exercise (OMNI-RES) scale was used to control the effort intensity and the exercises followed an alternate pre-follow-up.
This study will explore the long-term effects of exercise training on body composition, cardiorespiratory fitness, and energy metabolism in the community-dwelling elderly with sleep disturbances
Light exposure is on the rise in recent years. In large part because of unintentional illumination from screens that emit light directly into the eyes. Millions of computers, tablets, televisions, and smart-phones are sold worldwide every month and the usage time of these devices is increasing constantly. Today, people are exposed to ongoing light exposure from these device screens, emitting short wave length (SWL) during day and night hours, whether as active or passive users. In sum, artificial light at night (ALAN) seem to affect human circadian rhythmicity (melatonin and thermoregulation) and sleep, with two major factors. First, wavelength of light, with SWL being most detrimental to sleep and rhythms, when compared to LWL (Brianard et al., 2001). Second, a dose-response relationship exists between increasing light intensity and poorer sleep/circadian rhythms (Brianard et al., 1988; West et al., 2011). Based on existing knowledge, we hypothesize that when compared to long wavelength LWL illumination, short wavelength SWL illumination from computer screen will have a more damaging effect on melatonin (MLT) production and secretion, interfering body temperature regulation and affecting sleep quality, efficiency and sleep architecture. In addition, we hypothesized that intensity of the screen illumination will play another important factor on these outcomes, we assume that high intensity compared to low intensity will have more damaging effect on: melatonin, thermoregulation and sleep.
Background: People who have had a traumatic brain injury (TBI) often have trouble sleeping. TBI may also alter hormones, which can cause poor sleep. Researchers believe that a form of growth hormone releasing hormone (GHRH) might improve sleep in service members and veterans who have had a TBI. Objective: To see if GHRH can improve sleep in people who have had a TBI. Eligibility: Active duty service members or veterans (active duty in the past 10 years) ages 18-45 who have had a TBI in the past 6 months to 10 years. Design: Participants will be screened with: Medical history Physical exam Blood and urine tests Getting ACTH (a hormone) through an intravenous catheter (thin plastic tube) Interview about their mood and alcohol and drug use Questionnaires about their TBI, mood, and sleep Participants will have 2 overnight study visits a couple weeks apart. These will include: Physical exam Urine sample Two intravenous catheters placed. Blood samples will be taken throughout the night. Two shots under the skin of the belly. The shots will be GHRH on one visit and placebo on the other. Spending the night in the sleep lab. Their brain waves will be recorded with electrodes placed on the scalp. A questionnaire in the morning about their sleep Participants will be called a few days after each overnight visit. They will be asked about how they are feeling and to rate their sleep.
This randomized pilot clinical trial studies hypnotherapy in treating chronic pain in cancer survivors. Hypnotherapy is a state of concentration and focused attention which can provide more control over the experience of acute and chronic pain and its impact and may provide comfort, maximize function, and improve quality of life in cancer survivors.
This randomized clinical trial studies survivorship care in reducing symptoms in young adult cancer survivors. Survivorship care programs that identify the needs of young adult cancer survivors and ways to support them through the years after treatment may help reduce symptoms, such as pain, fatigue, sleep disturbance, depression, and distress, in young adult cancer survivors.
Insomnia is a widespread condition in which approximately one-third of adults in the United States are symptomatic with 6% of the population meeting the diagnostic criteria for insomnia. There is an increased risk of insomnia in certain segments of the population including women, middle-aged and older adults, shift workers and individuals with medical or psychiatric disorders. Individuals with insomnia have a decreased quality of life compared to those who report other serious illnesses such as major depression and congestive heart failure. Chronic insomnia can be caused by medications, drug or alcohol abuse, psychiatric disorders, medical and neurologic disorders. It can impair cognitive and physical functioning. Propofol is an approved drug administered intravenously for use in the induction and maintenance of anesthesia or sedation. Some research suggests that propofol when administered as a two hour infusion may improve the ease of sleep onset, sleep quality, ease of awakening and the integrity of behavior following waking. This study will be conducted in the Broward Health Medical Center Sleep Lab, under the direct care of a Board Certified Anesthesiologist, dedicated to the study involving participants who have refractory chronic primary insomnia and have not responded to conventional pharmacologic therapies within the past 90 days. Each qualifying participant will receive an IV infusion of the study medication for 5 consecutive nights. Assessments including polysomnography with completion of questionnaires will occur at screening, Days 1 through 5 of study product administration, Day 6 and Day 90. Follow-up questionnaires will also be distributed on Day 180.
This randomized phase II trial studies how well brief behavioral therapy works in improving sleep disorders in patients with stage I-III breast cancer undergoing chemotherapy. Sleep disorder counseling may reduce fatigue and insomnia as well as improve the well-being and quality of life in patients with breast cancer who are undergoing chemotherapy.