View clinical trials related to Lung Function.
Filter by:The use of e-cigarettes is often permitted in otherwise smoke-free areas causing passive vape exposure for present individuals. Little is known about the potential adverse health effects of passive vape, and people with respiratory diseases may be more susceptible. The aim of the present study was to investigate local and systemic effects of short-term passive exposure to vape from e-cigarettes among patients with mild or moderate chronic obstructive pulmonary disease COPD in a randomized controlled double-blinded cross-over study.
The study involves measurements of body composition using a DEXA scanner, lung function, buoyancy and floating technique. An understanding of the effects of physiological and anthropometric measures on an individual's ability to float may lead to the creation of a 'Floatability Score' to aid current public information. With this floatability score a set of actions that people of certain body types should adopt in water will be created, to tailor the current public safety messaging in an attempt to ensure more people are aware of how they can float in water
Nanoparticles (NPs) are minute pieces of material to which we are exposed every day in the air we breathe. Some are naturally occurring and have no impact on health, whereas others are produced from urban air pollution and can worsen diseases, particularly in the lungs and blood vessels. However, there is great interest in developing new NPs because of their unique properties that are useful for many applications, such as engineering, electronics and for drug delivery. At present it is unclear exactly what effects inhaled NPs have. Our current programme of research is designed to assess whether a specialized group of fats made in the body (called eicosanoids) drive the cardiovascular effects of NPs. The changes in the profiles of these fats will provide unique fingerprints that could be used to predict the actions of new NPs. In the proposed clinical study we shall investigate the effects of both environmental and manufactured carbonaceous NPs on the lungs, blood vessels, blood clotting, and levels of eicosanoids in blood and urine. We have previously investigated the cardiovascular effects of carbon nanoparticles after inhalation in man, and these experiments will investigate how the shape, size and composition of carbon particles influence these responses. These experiments will provide new insight into how NPs affect the body and pave the way for new ways to predict the toxic effects of NPs (reducing the need for animal experiments). The findings will enable the design of novel NP without the harmful characteristics of those found in air pollution.
This study aims to evaluate whether a short-term intervention strategy using air cleaner reduces indoor exposure to airborne particles (particulate matter with an aerodynamic diameter ≤2.5μm, PM2.5) and phthalates and improves cardiopulmonary health among Chinese healthy adults based on a randomized double-blinded crossover trial.
Asthma, abbreviation for bronchial asthma, is one of the common chronic airways disease that threatens human health. Typical symptoms of asthma are recurrent wheezing, shortness of breath, chest tightness and cough, usually occurring at night or early morning. However, there are still some patients with only persistent clinical manifestations of chest tightness. Concerned about this group of patients, we presented a subgroup of bronchial asthma, namely, chest tightness variant asthma (CTVA). This asthma subgroup usually lacks asthma-specific clinical features such as wheezing, shortness of breath, wheezing, and therefore often misdiagnosed for a long time. In order to further understand the clinical characteristics, pathogenesis, and prognosis of patients with CTVA, we conducted a national multicenter observation study to further understand CTVA. Finally, we plan to clarify whether CTVA is a relatively independent asthma phenotype. Meanwhile, reducing misdiagnosis and perform an appropriate treatment of CTVA.
The general objective of this project is to determine the best method to measure maximal inspiratory flow rates, to study their reproducibility and create reference equations in healthy subjects.
Chronic obstructive pulmonary disease (COPD) is the third leading cause of death in the United States, but markers that predict risk of developing disease outside of cigarette smoking have not been identified. Individuals with lung disease frequently have concurrent cardiovascular disease, but the reason for this is not well understood. In this study, we will identify markers that predict risk of future lung disease and evaluate the concurrent subclinical evolution of lung and heart dysfunction. This will allow for targeting of preventive strategies to stop the rising incidence of COPD and other lung diseases and provide insights into why heart and lung disease frequently occur together.
The aim of our study is to investigate if the use of the AirSeal insufflation system impairs the lung function of patients less than a conventional system in patients undergoing robot-assisted laparoscopic radical prostatectomy (RALP). Therefore we examine the lung function before and after surgery. As a second purpose of the study, in a subgroup, we investigate the influence of the gas insufflators (AirSeal and conventional) on hemodynamics during surgery. Furthermore we study the change in the lung perfusion-ventilation-ratio by using the electric impedance tomography technique.
Patients with vertebral fractures often have problems to straighten and as a consequence of impaired lung ventilation that leads to a impaired lung function. Furthermore, it comes to the sintering of the vertebra and a so-called hunchback. This also contributes to the poorer expansion of the lung. Pain is also caused by respiratory excursions of the chest which hinder the patients to use their entire lung volume. Kyphoplasty is designed to counter all these consequences of vertebral fractures by bringing stability to the fracture. In order to prove the thesis the results of lung function test (FEV1, PEF) are assessed.
The purpose of this clinical trial is to understand if women undergoing surgery for a suspected gynecologic malignancy are interested in participating in a Mindful Movement and Breathing program and what the effects of this program are on women and the surgery-related symptoms they experience. Mindful Movement and Breathing programs may be effective for easing distress, post-surgical pain, and other symptoms of surgical procedures.