View clinical trials related to Pulmonary Edema.
Filter by:The main objective is to assess the validation of the diagnosis early acute pulmonary edema in elderly patients with acute respiratory distress, admitted in a host of vital emergency services by lung ultrasound associated with the measurement of the inferior vena cava.
The purpose of this study is to determine whether Non Invasive Ventilation are effective in prevention of reperfusion pulmonary edema after pulmonary artery angioplasty. Our hypothesis is that administration of Non Invasive Ventilation during the procedure and systematically in post procedure period is a protective factor against the development and severity of reperfusion pulmonary edema.
Respiratory complications represent the second most frequent type of postoperative complications with an incidence estimated to range from 2.0% to 7.9% It has been shown that intra-operative protective ventilation is associated with a reduced risk of respiratory complications. The effects of intra-operative inspiratory oxygen fraction (FiO2) remain to be investigated. In this study, the investigators aim to investigate the association between intra-operative FiO2 and respiratory complication as well as surgical site infection and ICU admission in patients undergoing non-cardiothoracic surgery. The investigators primary hypothesis is that high intra-operative FiO2 increases the risk of postoperative respiratory complications independent of predefined risk factors.
This project will study the use of ultrasound of the chest for the detection of fluid in the lungs in patients with pre-eclampsia vs pregnant patients without pre-eclampsia. Pre-eclampsia is a syndrome usually diagnosed in the second half of pregnancy in which patients develop elevated blood pressure and may develop protein in their urine, neurologic abnormalities, fluid in the lungs, and abnormal blood tests associated with the liver and kidney. Pulmonary edema (fluid in the lungs) in pre-eclampsia can lead to patient discomfort and significant morbidity and mortality. It can be detected using chest x-ray, although this type of imaging offers significant disadvantages, including radiation, which is of particular concern in pregnant patients. In addition, previous studies have demonstrated that chest x-ray is not very accurate in the detection of fluid in the lungs. Multiple previous studies have demonstrated the utility of chest ultrasonography in detecting fluid in the chest, although the vast majority of these studies involved patients with acute decompensated heart failure. Our goal is to evaluate bedside ultrasound of the chest in patients with pre-eclampsia in comparison to normal pregnant patients to determine whether these patients have abnormal fluid in the chest. The investigators will divide our patients into two groups. In the study group, the investigators will include patients with pre-eclampsia with or without shortness of breath, and in the control group, the investigators will include pregnant patients without pre-eclampsia. Informed consent will be obtained from all patients enrolled in the study. These patients will then undergo an ultrasound of the chest, performed by a member of the Emergency Medicine Ultrasound Division. The images will be transmitted wirelessly from the ultrasound machine to a secure web based cloud (Q-path) and will be subsequently reviewed by expert reviewers.
The goal of this study is to evaluate the sensitivity and specificity of Electrical Impedance Tomography (EIT) as a bedside diagnostic tool for lung pathologies in patients who are mechanically ventilated. In electrical impedance tomography low amplitude, low frequency current is applied on electrodes, and the resulting voltage is measured and used to computed the electrical properties of the interior of the chest as they change in time. The computed properties are used to form an image, which can then be used for monitoring and diagnosis.
Transient receptor potential vanilloid 4 (TRPV4) channel blockade may be promising in the treatment of pulmonary oedema and dyspnoea in heart failure (HF) and acute decompensated heart failure (ADHF) patients by re-establishing the alveolar septal barrier. Dynamic contrast enhanced (DCE) Magnetic Resonance Imaging (MRI) is an established technique for assessing changes in vascular permeability and interstitial water volume. The aim of this study is to establish the potential utility of DCE-MRI as a novel endpoint for dose ranging and proof of mechanism studies of TRPV4 blockers. The DCE-MRI markers of vascular permeability and pulmonary oedema will be measured in subjects with HF (group 2) and healthy volunteers (HV) (group 1) at rest to determine if there is a difference between the two populations. Apart from this, exercise induced changes relative to rest in interstitial volume and exchange rate will be evaluated in both HV and subjects with HF. Additionally, the capability of DCE-MRI to detect changes in interstitial lung fluid in patients with acute decompensated heart failure (ADHF) (group 3) will be investigated. DCE-MRI markers of pulmonary oedema will be assessed when patients are initially hospitalized with ADHF and subsequently after receiving standard of care treatment to determine whether differences can be detected by this methodology.This study will enrol a sufficient number of subjects to have at least 24 subjects in Group 1 and 2 (group 1:12 HV and group 2: 12 subjects with HF) and atleast 5 subjects in Group 3. For each subject, the MRI data must be of sufficient quality to enable DCE-MRI modelling from 2 Sessions. For group 1 and 2, the subjects will have screening visit and 3 MRI sessions. For the first scanning session, subjects will undergo the baseline procedure. The second imaging session will occur approximately one week later to measure within subject variability. A third imaging session (which will be conducted in 2 visits) will incorporate a bicycle exercise challenge prior to the MRI scan, and this third scan will be performed approximately one to three days after the second imaging session. For group 3: Screening will occur during hospitalization for eligibility. Session 1of MRI will be conducted while the subject is still hospitalized. Session 2 will be conducted within 4 weeks of the first scan, when the signs of pulmonary oedema are considered to be resolved. If a subject's pulmonary oedema has not resolved at Session 2, then the subject will be not be scanned by MRI at Session 2 and will be brought back for Session 3 up to 4 weeks after Session 2 for their second MRI.
This study is the first administration of GSK2798745 in humans. This will be a sponsor un-blinded, placebo-controlled study to investigate the safety, tolerability, pharmacokinetics (PK), and pharmacodynamics (PD) of GSK2798745, given as single and repeat oral doses to healthy subjects and stable heart failure (HF) subjects. Approximately 28 healthy subjects will be enrolled in the study cohorts (Cohort 1-3) involving single and repeat dose escalations of GSK2798745, while up to 24 stable heart failure subjects will be enrolled in Cohort 4 involving single and repeat dose administration of GSK2798745, with the dose selected based on data from healthy subject cohorts. This would be followed by enrollment of up to 8 subjects with heart failure in Cohort 5 involving repeat dose administration of GSK2798745. The study duration, including screening and follow-up, is not expected to exceed 17 weeks for subjects in the study (in any cohort).
Intraoperative intravenous fluid management practice varies greatly between anesthesiologists. Postoperative fluid based weight gain is associated with major morbidity. Postoperative respiratory complications are associated with increased morbidity, mortality and hospital costs. The literature shows conflicting data regarding intraoperative fluid resuscitation volume. No large-scale studies have focused on intraoperative fluid management and postoperative respiratory dysfunction. Hypotheses: Primary - Liberal intraoperative fluid resuscitation is associated with an increased risk of 30 day mortality Secondary - Liberal intraoperative fluid resuscitation is associated with increased likelihood of postoperative respiratory failure, pulmonary edema, reintubation, atelectasis, acute kidney injury and peri-extubation oxygen desaturation.
Capnometer has been used to assess the success of intubation and the quality of cardiopulmonary resuscitation. However, capnometers can malfunction under the conditions such as pulmonary edema and hemorrhage due to the vulnerability of capnometers for water. Investigators hypothesized that the use of 10cm catheter mount will reduce the malfunction of capnometers under the conditions of water.
The purpose of this study is to evaluate the lung Doppler signals in left HF patients with and without pulmonary congestion (i.e. decompensated left HF patients and compensated left HF patients respectively), in comparison to a control group of subjects without CHF (non-CHF controls), in order to determine the diagnostic value of this non-invasive method in CHF. If this method will prove to be of diagnostic value, it could potentially be used to diagnose and monitor CHF patients in both inpatient and outpatient settings.