5 Clinical Trials for Various Conditions
Sleep is an important part of the healing process, and patients admitted to the hospital often report poor sleep. Patients have difficulty not only falling sleep, but also staying asleep. Prior studies show that hospital noise may be a contributing factor, and in particular, sound level changes (which refers to an increase in sound above the background/baseline noise level) may cause arousals from sleep. Based on preliminary data, this study aims to use white noise to reduce the number of relevant sound level changes that occur during a night of sleep in the hospital. Using a randomized, cross-over design, the investigators aim to enroll 45 inpatient adults (age ≥ 65 years) to receive "active," white noise (white noised played at 57-60 decibels) on one night of their stay, and "inactive," white noise (white noise played at 45-50 decibels) on an alternate night. Three major primary outcomes will be investigated - 1) objective sleep duration as measured using actigraphy, 2)objectively measured sleep fragmentation using actigraphy, and 3) subjective sleep quality using the Richards Campbell Sleep Questionnaire. Secondary outcomes will include sound level changes in the room (measured using sound meters), as well as morning blood glucose (for diabetic/prediabetic patients) and blood pressure measurements. Delirium will be measured twice daily through the inpatient stay in a secondary analysis to compare levels of sleep fragmentation to delirium incidence.
A feasibility study to evaluate the use of white noise to improve sleeping conditions in an ICU setting.
Many patients complain to clinicians that they have difficulty sleeping appears to be due to environmental noise. There is a common perception that acute noises are more troublesome than continuous noises in the effect on individual sleep quality. Therefore the goal is to use a Marpac white noise maker with a continuous noise to see its effect on individuals that have difficulty sleeping in a high noise environment.
The goal of this clinical trial is to compare sleeping in a SNOO Smart Sleeper bassinet (SNOO) with sleeping in traditional bassinet conditions in premature infants. The main questions it aims to answer are: 1. Do preterm infants who sleep in the SNOO have more quiet sleep? 2. Do preterm infants who sleep in the SNOO have improved vital signs? * Participants will spend two separate three-hour periods sleeping in either a SNOO (which plays white noise and rocks from side-to-side) or in a SNOO that remains off (does not play white noise and does not move). There will be at least one week separating these sleep assessments. * Participants will have their sleep stage and vital signs monitored (heart rate and oxygen levels). * Participants will also wear two stickers on their forehead that measure brain oxygen levels (NIRS) and brain waves (EEG). There is a chance that the infant may experience more restful sleep and improved vital signs during the 2 sleep assessments.
The purpose of this study is to determine if using an over-the-counter, commercially available sleep noise machine playing pink or white noise will reduce the incidence of delirium in hospitalized patients over the age of 65. Delirium is an acute change in cognition which commonly occurs in hospitalized older adults, and is linked with sleep-wake cycle disturbance. Delirium is associated with increased morbidity and mortality as well as longer hospital stays. This project will record delirium screening scores for those receiving the intervention and comparing them to baseline data. Reducing delirium rates using a noninvasive, inexpensive method in a hospital setting could have a significant impact on patient outcomes and potentially reduce costs associated with longer hospital stays. It is anticipated that white/pink noise played at night will decrease rates of delirium in hospitalized older adults.