View clinical trials related to Sleep Wake Disorders.
Filter by:Aim: Evaluate the influence of exercise, in different times, on quality of life, sleep and clinical parameters in people living with HIV/AIDS (PLHA). Methods: Intervention study, prospective.
A longitudinal study to examine the relationships among sleep characteristics, stress, and child behavior problems in a community sample of toddlers (12-24 months- ages 12-15 months at enrollment) living in socioeconomically disadvantaged homes
This is a randomized control trial to test the effectiveness of therapeutic massage on the sleep quality and the stress levels in women that have completed their treatment for breast cancer.
This study is to determine the impact of night shift nurse's activity on patients' sleeping patterns in medical services including individual, clinical and environmental factors. The patients will be questioned in order to create both a control group and a group with troubled sleeping patterns.
Depression is a major health challenge, and despite developments in pharmacotherapy and psychotherapy a substantial part of patients will only recover very slowly and incompletely, and 10-25 % of the patients are resistant to treatment. Therefore, new treatment initiatives are in demand. Chronotherapeutics can regulate diurnal rhythms and sleep, and have shown promising results on antidepressant effects. Among chronotherapeutic treatment modalities, Bright Light Therapy (BLT) has been used in treatment of depression and sleep disorders for several decades with both an antidepressant and a sleep improving effect. BLT has also been shown to augment antidepressant therapy. Objectives. The objective of this trial is to investigate the feasibility of a combination of LED-light armatures aiming to mimic sunlight, when installed in the patient rooms of a psychiatric inpatient Ward. Investigators has opted for using a randomized design that will subsequently be tested in a larger clinical trial with depression severity as the primary outcome. In this feasibility study investigators will register the stability of the system, the influence of the light on patients regarding tolerability, comfort, depression level, and sleep. Investigators also so want to measure and collect specific light-data on the Non-image-forming light (NIF) by using specially designed light sensors to capture the spectral distribution of the light. Finally investigators will test the electronic case report form (eCRF) that has been designed for the trial. Design. The design is a randomised controlled feasibility trial with two arms: an active dynamic light trial arm and a standard light trial arm with blinding of depression outcome assessors (Hamilton depression rating scale), data collection, and data analyses. Randomization will be with a rate for active and standard of 2 to 1.
The aim of this study is to investigate the role of the circadian system in patients with neurologic sleep-wake disorders. Therefore, overnight sleep will be distributed over 30 hours into repetitive sleep-wake cycles (poly-nap protocol), so that sleep episodes occur at different circadian phases. Vigilance, attention, risk behavior as well as sleep onset latency will be observed. Ambulatory accelerometer recordings gain more and more attention in the diagnostic work-up of sleep disorders, as they allow to also include the everyday rest-activity rhythm before examinations in the sleep laboratory. Advances of novel devices should improve the detection of rest and activity and therefore the estimation of sleep and wake, especially in patients with neurologic sleep-wake disorders exhibiting fragmented sleep. Two types of actimeters will be applied throughout our study protocol to explore better classification of sleep and wake phases and patterns of the rest-activity rhythm. This study is designed as an observational case-controlled study targeting the disorders of narcolepsy type 1 and idiopathic hypersomnia, and including interventional procedures in the healthy control group (sleep deprivation, sleep restriction) in a counter-balanced design.
Patients with CML report on fatigue, and many of them report on sleep disturbances. The investigators wish to objectively assess the patient's sleep using a sleep "wrist watch" (Actigraph) , and correlate data with their perception of sleep quality. A matched participants group will serve as control. the Control group is defined as participants not having CML or any other malignancy and without any known sleep disturbances.
This will be a double blinded randomized clinical trial carried out at Zale-Lipshy and Parkland Hospital Inpatient Rehabilitation Facilities. Acute stroke patients with insomnia, identified by the Insomnia Severity Index (ISI), and who choose to participate in this study will be randomized to CES (Cranial Electrical Stimulation) or sham CES. Patients who do not feel they are getting adequate sleep but want to continue in the study will be given the option to receive the standard of care medication as a rescue starting on the 3rd night. Patients will receive treatment with a Fisher-Wallace CES device or Sham CES. Treatment with CES will be for 20 minutes once a day, and the treatment period will be for 7 days. Patients will be allowed to increase the intensity of the device from the suggested starting point of level 2 if they feel no improvement in sleep on night 1. Groups will be monitored with a wrist worn actigraph that records the patient's activity for the duration of the period of study and provides data on sleep latency, time spent asleep, and sleep efficiency. The outcome measures will be total minutes/hours of sleep, sleep efficiency and subjective reports of drowsiness using the Karolinska Sleepiness Scale. Actigraphic data will be collected 24 hours a day for 7 days. The total length of study will be about 24 months with a target N of 100 consented individuals and 85 participants. Patients will be allowed to exit the study at any time on their own choosing. To minimize loss of subjects, patients will have the option to choose SOC rescue starting on the third night. Patients who choose the SOC rescue will continue to be monitored with an actigraph for data collection purposes. The investigator should discontinue study participation for a given subject or withdraw the subject from study if he/she believes that continuation would be detrimental to the subject's well-being. A subject can decide to withdraw from the study at any time and for any reason.
Sleep disordered breathing (SDB) is characterized by regular periods of no breathing (apnea) or low levels of breathing (hypopnea) and leads to repeated periods of low oxygenation, termed intermittent hypoxia that causes fluctuations in blood oxygen levels. This leads to increased peripheral chemoreflex sensitivity that is thought to occur through the stimulation of angiotensin-II, type-I receptors (AT1R) that are expressed primarily on glomus cells within the peripheral chemoreflex and ultimately results in long lasting hypertension. The goal of this study is to determine if AT1R receptor blockade can prevent the increase in chemoreflex sensitivity following one night of hypoxia and improve the severity of SDB.
Sleep disturbances frequently occur in intensive care unit (ICU) patients undergoing mechanical ventilation. In a previous study, sedative dose dexmedetomidine (median 0.6 microgram/kg/h) improved sleep quality in mechanically ventilated patients. However, for mechanically ventilated patients, light sedation is better than deep sedation for the outcomes, which is manifested as shortened length of ICU stay, shortened duration of mechanical ventilation, and decreased mortality. In a recent study of the investigators, non-sedative low-dose dexmedetomidine (0.1 microgram/kg/h) improved sleep quality in non-mechanically ventilated elderly patients admitted to the ICU after surgery. The investigators hypothesize that, in mechanically ventilated patients who are admitted to the ICU after surgery, low-dose dexmedetomidine may also improve sleep quality.