View clinical trials related to Noise Exposure.
Filter by:With the development of science and technology, there are more and more electromagnetic and noise factors in the working and living environment. These two factors often exist together, and their impact on people may interact. Scalp EEG is a classic nerve detection technology, which can reflect the functional state of the brain in a non-invasive and real-time manner. This project intends to use EEG technology to study the effects of electromagnetism and noise on human brain function.
This observational study will examine the relationship between aircraft noise exposure in the bedroom and objectively assessed sleep disturbance. Surveys will be mailed to randomly selected households around selected airports to recruit individuals for a 5 night in-home sleep study. Eligible survey respondents interested in participating in the sleep study will record nighttime indoor sounds using a portable audio recorder and wear a small device that collects heart rate and movement data for 5 consecutive nights. They will also complete brief morning questionnaires about their previous night's sleep and their sleep quality and a participant characteristics questionnaire. Collected data will be used to create an exposure-response model between aircraft noise exposure and sleep disturbance.
The investigators pilot test an intervention to understand the spatial-temporal distribution of aggregated environmental noise exposure in Philadelphia and its impact on health.
There is limited data regarding sound levels and burden in the pediatric cardiac critical care unit and how this compares with WHO standards. We seek to record this data and correlate sound level with bolus sedation administration, patient delirium scores, and patient heart rate trends. Primary Outcomes - 1 peak sound level in cardiac ICU in decibels - 2 Mean sound level in cardiac ICU in decibels - 3 Compare sound levels to WHO recommendations Secondary Outcomes - 1 To explore patient and unit factors that might influence these levels - 2 To analyze sound levels in post-operative neonates, versus infants, versus children - 3 To analyze patients on invasive versus non-invasine versus no ventilation
Patients admitted to the intensive care unit (ICU) undergo complex critical care treatment and are consequently surrounded by equipment and monitors contributing to high sound pressure levels. In addition, many medical and nursing ICU staff members work together with numerous visiting consultants resulting in an additional sound burden. As is already known, in the ICU environment, many activities carried out by healthcare professionals, require a high level of concentration. So, the noisy ICU environment causes interruptions in activities that require concentration and induce in this way, a higher potential for errors. The World Health Organization (WHO) and the Environmental Protection Agency (EPA) set standards for sound levels in hospitals with a recommendation for patient treatment areas. There is a clear trend for increasing hospital noise since the sixties. According to healthcare professionals, one of the strongest contributing factors of noise in the ICU environment are monitoring alarms as they occur very frequently. Additionally, ICU nurses experience high levels of stress towards clinical alarms and are becoming alarm fatigue, which means that the staff becomes desensitized because of an excessive number of alarms and may disable or silence alarms without checking the patient . Consensus dictates the importance of reducing sound pressure levels and the numerous alarm signals from monitor alarms in the ICU. In the study, we focus on busy predetermined areas in the ICU. This study aims to determine the effect of an intervention bundle, aimed at the reduction of "noise" (decibels) and its effect on health care professionals.
Background: Noise in operating rooms (ORs) during surgery may affect OR personnel and pose a threat to patient safety. The sources of noise vary depending on the operation. We aimed to study how OR staff perceived noise, whether music was considered noise and what its perceived effects were. Methods: Surgeons, anesthesiologists, residents, and nurses were interviewed. IPads were placed in the ORs to gather noise level data.
This study has two stages. At the first stage,the investigators will try to use noise detectors to investigate the status of noise exposure in the pediatric intensive care unit(PICU) and to analyze the main noise sources in it. At the second stage,the investigators will try to evaluate the effect of noise management on noise exposure and health outcomes of the pediatric patients in PICU.The investigators hypothesize that noise exposure in PICU is higher than the standard.The investigators also hypothesize that the implementation of the noise management will improve the noise exposure and health outcomes of the pediatric patients in PICU.
Noise in the operating room is common and often unavoidable, but there is mixed evidence of its impact. Previous research has suggested that excessive noise at the time when a patient is being 'put to sleep' may lead to care teams missing changes in monitors, having difficulties focusing or increasing stress. However, it is unknown ifs noise at this time affects the patient's satisfaction with the overall surgical experience. The investigators are conducting a survey study to evaluate patients' and anesthesiologists' overall satisfaction at the time of induction, before and after an education program promoting reducing noise in the Operating Room. Study Purpose: The purpose of this study is to investigate how noise levels that the time of induction in the OR (operating room) effect patient and anesthesiologists' satisfaction with the overall surgical experience. Hypothesis: The null hypothesis is that there is no improvement in patient satisfaction with the reduction of noise at the time of induction. Study Population: The Investigators will be including two study populations: patients age 19 or older undergoing elective, non-cardiac surgery with general anesthesia as the primary mode of anesthesia, and; Anesthesiologists working in these rooms. Research Method: This will be a pre/post survey study of patients and Anesthesiologists perspectives of noise in the OR. The investigators will survey participants before and after an educational intervention for OR staff.
Centralisation of neonatal intensive care has led to an increase in postnatal inter-hospital transfers within the first 72 hours of life. Studies have shown transported preterm infants have an increased risk of intraventricular haemorrhage compared to inborns. The cause is likely multi-factorial, however, during the transportation process infants are exposed to noxious stimuli (excessive noise, vibration and temperature fluctuations), which may result in microscopic brain injury. However, there is a paucity of evidence to evaluate the effect of noise and vibration exposure during transportation. In this study the investigators aim to quantify the level of vibration and noise as experienced by a preterm infant during inter-hospital transportation in ground ambulance in the United Kingdom Secondary aims of the study are to: i) measure the physiological and biochemical changes that occur as a result of ambulance transportation (ii) quantify microscopic brain injury through measurement of urinary S100B and other biomarkers (iii) evaluate the development of intraventricular haemorrhage on cranial ultrasound iv) monitor vibration and sound exposure, using a prototype measuring system, during neonatal transport using both a manikin and a small cohort of neonatal patients. v) evaluate vibration and sound exposure levels using an updated transportation system modified to reduce effects.
This project will investigate whether reduction in ambient light and elimination of noise during induction and emergence from anesthesia influences the response time of the anesthesia provider to auditory and visual alarms when compared to a standard operating room. In addition, the investigators will assess the cumulative level of noise exposure that providers experience during the perioperative period.