View clinical trials related to Lung Diseases.
Filter by:The purpose of this study is to analysis the volatile organic gases(VOCs) in exhaled breath of pulmonary lesion patients and healthy controls, in order to find the difference of composition and concentration among groups.
Epidemiological investigations has suggested exposure to air pollution linked with respiratory disease, especially chronic obstructive pulmonary disease. However, the potential mechanisms of adverse effects remains scare. The present study will assess the association between air pollutants and respiratory related parameters to elucidate possible mechanisms.
Smoking is one of the world's leading health hazards. Besides being a major risk factor in the etiology of COPD and lung cancer, cigarette smoke is also a causative agent lung diseases characterized by bronchiolar and interstitial inflammation. However, the associated lung pathology of smoking is not only a risk in the development of lung diseases, but also widely recognized as a major risk factor associated with perioperative respiratory and cardiovascular complications. Apart from the long term effects of cigarette smoke, acute effects of the inhalation of cigarettes smoke may influence the course of lung pathology. The inhalation of smoke causes inflammation in the lung by inducing chemotaxis and activation of neutrophils and macrophages and induces oxidative stress. As the acute inflammatory response to smoke inhalation seems to be the underlying mechanism for chronic diseases of smokers, exploring the field of the acute pulmonary changes after exposure to cigarette smoke is highly relevant. One reason for acute hypoxia and injury during smoking might be a severe mismatch of ventilation and perfusion of the lung. Using the multiple inert gas elimination technique (MIGET), a distribution of ventilation-perfusion ratios in the lung can be calculated by analyzing data on the retention and excretion of six infused inert gases. A saline solution containing the gases is infused intravenously. When passing through the lung the gases are either eliminated from the blood or retained depending on their partition coefficient and local V/Q ratio. The concentrations of the gases are measured in the mixed venous blood or the mixed expired gas and the arterial blood allowing for the calculation of retention and excretion and the derivation of V/Q distribution. MIGET is the experimental gold standard to determine the Ventilation-Perfusion ratio of the lung. The aim of this study is to show the acute effect of smoking on ventilation/perfusion ratio distribution in the lung in otherwise healthy smokers.
Chronic obstructive pulmonary disease (COPD) patients often undergo thoracic surgery due to lung cancer and emphysematous changes. One lung ventilation (OLV) used in thoracic surgery aggravates hypoxia and hypercapnia increasing intrapulmonary shunt and dead space.Ketamine provide bronchodilation by inhibiting the reuptake of catecholamines in the circulation. It also serves relaxation of bronchial smooth muscle. Our aim in this study, effects of ketamine on arterial oxygenation, the shunt fraction and the lung mechanics in patients with COPD who administered OLV because of thoracic surgery. Thirty patients with COPD who undergo thoracotomy for lung lobectomy will be included in this study. Patients will be randomly divided to a control group (%0,9 saline- CG) or a keta (ketamine- KG) group. KG will be administered 1 mg/kg ketamine bolus, then 0,5 mg/kg/hour ketamine infusion after the induction, CG will be administered sline bolus, then saline infusion. Peak airway pressure (Ppeak), plato airway pressure (Pplato), static compliance, shunt fraction, PaO2/FiO2 and arteriel blood gas values (Pa02, PaC02) will be recorded before initiation of OLV and 30 minutes intervals after initiation of OLV.To evaluate the postoperative pulmonary complications, Pa02, PaC02 in blood gas and Pa02/Fi02 values will be recorded 20 minute after arrival at postoperative care unit. Patients will be evaluated for pneumonia, atelectasis and acute lung injury at postoperative 72 h and findings will be recorded. 30 day mortality will be recorded.
Diffuse parenchymal lung diseases (DPLD) include a variety of respiratory conditions that affect either the pulmonary interstitium or the alveolar space . The etiological diagnosis of DPLD is often challenging, because of the large number of pathological entities involved, which share close clinical and radiological presentations. High resolution Chest CT, a key diagnostic procedure in DPLD, is subject to significant inter-observer analysis variations, so that the diagnosis sometimes requires a surgical or transbronchial lung biopsy sampling. This invasive procedure is not devoid of morbidity and may be impossible to perform in fragile patients. Therefore, the definite diagnosis of DPLD is usually achieved following a multi-disciplinary expert consensus, based on careful medical history, chest CT and bronchoalveolar lavage examinations. Alveolar probe-based confocal laser endomicroscopy (pCLE) is a mini invasive endoscopic technique that allows distal lung microscopic imaging in vivo, during a flexible bronchoscopy performed under topical anaesthesia. Since 2006, Alveolar pCLE has been used in a monocentric clinical trial at the Rouen University Hospital in more than 200 patients and healthy volunteers. This allowed the first pCLE in-vivo description of normal pulmonary acinus, and confirmed the safety of the technique.
Interstitial lung disease is a chronic progressive fibrosis lung disease that with a highly variable clinical process.thence it is significant for the patient to search a convenient and accurate prediction method. The objective of this study was to determine whether peripheral blood biomarkers can predict disease .
Patients are being offered participation in this pirfenidone trial because They have been diagnosed with fibrotic hypersensitivity pneumonitis (FHP), a type of interstitial lung disease (ILD). This is a disease where scarring of lung tissue occurs as the result of inhaling substances called antigens. These antigens can be substances such as molds, chemicals or dust. As a result of this scarring the lungs are is not able to move oxygen into the bloodstream to reach other organs. Currently over 1400 subjects have been treated with pirfenidone in 15 clinical trials. This drug has been approved by the Food and Drug Administration (FDA) for use in Idiopathic Pulmonary Fibrosis, a different type of ILD, but requires special permission for use in your condition. The use of pirfenidone has not been approved for the treatment of FHP. It is considered experimental treatment in this study.
Breathing movements, called chest wall motion, are very complex. The investigators are studying how movement of the abdomen, ribs and diaphragm contribute to breathing and how this differs with different diseases in the chest. Breathing movements may help with diagnosis, assessment of severity or assessing the impact of treatments for chest conditions. The investigators are following people who have a chest disease, measuring their chest wall motion and comparing it to their diagnosis and and how their treatment works. Chest wall motion can be measured in different ways at rest and whilst exercising. Small stickers on the chest can be used to reflect infra red light or visible squares of light can be shone onto the chest without using stickers.
The investigators will conduct a randomized, controlled, double-blind, crossover trial to determine whether the presence of a portable high-efficiency indoor air filter in the bedroom reduces respiratory symptoms in former smokers compared with placebo. The primary outcomes will be change in St. George's Respiratory Questionnaire - COPD (SGRQ-C) score associated with using a portable high-efficiency indoor air filter during the study period. Secondary outcomes of COPD exacerbations and hospitalizations, daily step counts, medication changes, spirometry, and cardiovascular outcomes will also be assessed.
Born out of the European Union 7th Framework Programme funded project European IPF Network (eurIPFnet), the European IPF Registry (eurIPFreg) has become Europe's leading database of longitudinal data from IPF patients, including control groups of patients with other lung diseases. The registry was initiated with the intention of creating a permanent and continuously growing record of well defined data on IPF in Europe, in order to increase the chances of finding better treatment options for this devastating disease. Clinical colleagues who would like to actively participate (both in terms of patient recruitment and data analysis) are invited to contact us (http://www.pulmonary-fibrosis.net/).