View clinical trials related to Noise Exposure.
Filter by:"De Oorzaak" is a large-scale citizen science project aiming to assess the impact of environmental sounds on the quality of life. This particular study is a part of a broader citizen science research project "De Oorzaak", which focuses on mapping the effects of ambient noise with high resolution and on a large scale across Flanders. The specific goal of the underlying sub study is to expand our current knowledge of how ambient noise affects sleep quality and stress.
The aim of this clinical trial is to compare the effects of music and ambient noise cancellation during total knee arthroplasty and to analyse the effects on patients. The study will also collect information on patients' functional knee scores and anxiety levels. The main questions to be answered are the following: Does the blocking of music or ambient noise, which is predicted to reduce anxiety, reduce people's anxiety levels? To what extent are participants affected by ambient noise? Does music or ambient noise blocking lead to an improvement in patients' functional scores? The researchers will work with 3 groups of patients who will be exposed to ambient noise blocking, music playing and ambient noise during knee replacement surgery. Participants will do the following: Be asked questions about anxiety and knee function scores before and after surgery. Attend clinical examinations at specified times for checks and tests. Outcomes will be assessed and recorded at appropriate times.
Environmental noise represents a health problem for at least one in five citizens of the European Union. Noise exposure leads to the development of arterial hypertension, myocardial infarction, stroke, and obesity. Given the limited information on noise exposure and noise effects on humans in the Republic of Serbia, the overall objective of NOXYCARD is to collect environmental noise levels data; to identify long-term and short-term noise effects on the cardiovascular system; and to evaluate the levels of blood stress hormones, oxidative stress, and inflammation in individuals with normal body weight and individuals with obesity.
This study will investigate the biological mechanisms linking sleep disruption by vibration and noise, and the development of cardiometabolic disease. In a laboratory sleep study, the investigators will play railway vibration of different levels during the night. The investigators will also measure objective sleep quality and quantity, cognitive performance across multiple domains, self-reported sleep and wellbeing outcomes, and blood samples. Blood samples will be analyzed to identify metabolic changes and indicators of diabetes risk in different nights. Identifying biomarkers that are impacted by sleep fragmentation will establish the currently unclear pathways by which railway vibration exposure at night can lead to the development of diseases in the long term, especially metabolic disorders including diabetes.
Hearing is an essential element for the development of language and conditions an appropriate cognitive, psychological and social development of children. Therefore, congenital deafness represents a real public health problem, justifying the implementation of a national neonatal screening for hearing disorders in newborns. The intensity at which the fetus perceives sound at 27-29 weeks of amenorrhea (SA) is about 40 decibels (dB), it recognizes its mother's voice from the 33rd SA, and then its perception capacity evolves to the adult level at term. These data suggest that the fetus is sensitive to its sound environment from the 3rd trimester of pregnancy. The development of hearing could be damaged in case of prolonged exposure to intense noise. Studies have demonstrated an harmful effects of long and sustained exposure to noise on hearing in adults. In addition, a recent survey showed that 40% of the population of Ile-de-France felt that noise had a significant impact on their health . The effects of prolonged loud noise exposure on human fetal hearing are not fully understood and few studies have assessed the prevalence of women exposed to loud and lengthy noise in a population of postpartum women. This study aims evaluating the prevalence and the impacte of an exposure to Intense and Prolonged Noises during Pregnancy.
Sound insulation of bedrooms is expensive and typically only granted to residents living close to the airport. We plan to investigate the effects of various aviation noises on sleep under controlled laboratory conditions and to investigate whether some of the sleep disturbing effects can be mitigated by introducing broadband noise into the bedroom or by wearing earplugs.
This study will investigate the biological mechanisms linking sleep disruption by noise and the development of disease. In a laboratory sleep study, the investigators will play synthesised automotive tyre sounds, investigating how acoustical characteristics of tyre noise impact on sleep macrostructure, cardiometabolic profile and cognitive performance (continuous traffic flow or a few individual, but higher level, traffic pass-bys). The investigators will also measure objective sleep quality and quantity, cognitive performance across multiple domains, self-reported sleep and wellbeing outcomes, and blood samples. Blood samples will be analysed to identify metabolic changes in different nights. Identifying biomarkers that are impacted by sleep fragmentation will establish the currently unclear pathways by which chronic noise exposure at night can lead to the development of diseases in the long term, especially cardiometabolic disorders.
Introduction: Prenatal tests can increase the stress levels of pregnant women. One of the tests performed to evaluate fetal health during pregnancy is the Nonstress Test (NST). Objective: To evaluate the effect of NST device noise level on stress parameters in primiparous pregnant women. Method: A randomized controlled, prospective study was conducted with 44 pregnant women in a State Hospital in Istanbul/Turkey between 01.02.2021 and 01.10.2021. Personal Information Form, Spielberger State Anxiety Inventory, Hillrom Welch Allyn Connex Spot Monitor, Gluco Dr Glucometer, Extech SL 400 Personal Noise Dosimeter, Sennheiser HD 450BT ANC Over-Ear Bluetooth Headset, Eppendorf Tube, Philips Avalon FM20 NST were used to collect data. A p value of <.05 was considered significant in the statistical evaluation.
This study will investigate the biological mechanisms linking sleep disruption by noise and the development of disease. In a laboratory sleep study, we will play traffic sounds of different types (road, rail and air) and noise levels during the night. We will also have nights with sound from so-called "white noise machines". These generate a low-level and continuous noise that may improve sleep by "masking" the traffic noises that would otherwise disturb sleep. We will also measure objective sleep quality and quantity, cognitive performance across multiple domains, self-reported sleep and wellbeing outcomes, and blood samples. Blood samples will be analysed to identify metabolic changes in different nights. Identifying biomarkers that are impacted by sleep fragmentation will establish the currently unclear pathways by which chronic noise exposure at night can lead to the development of diseases in the long term, especially cardiometabolic disorders.
The purpose of this project is to compare a newly developed automatic reversing dynamic air mattress, with a regular care mattress, which is in daily use at the hospital. Focus will be on pressure relief in relation to occurrence of pressure injury, user satisfaction, and the mattresses impact on sleep and pain. The participants will be randomized to start with the intervention mattress or the control mattress. Outcomes will be measured via validated forms regarding pressure related injuries, quality of life, pain, and mattress comfort. Custom made forms will be used regarding resource use and comfort in the nursing service, especially in relation to position changes in the participants .