View clinical trials related to Respiratory Disease.
Filter by:Studies reveal that the Covid-19 virus can be transmitted in three ways: respiratory tract, direct contact and feces. The incubation period is estimated to be 5.2 [4.1-7.0] days for the 95% confidence interval and the virus transmission coefficient (R0) baseline growth number is 2.2 [1.4-3.9]. The main signs and symptoms described in the literature are; other atypical symptoms, particularly fever (98%), cough (76%), myalgia or fatigue (44%); sputum (28%), headache (8%), hemoptysis (5%), vomiting (5%), diarrhea (3%) and shortness of breath were detected. In addition to lymphopenia, which is detected in 63% of cases, pneumonia is also present. Widely regarded as the cornerstone of pulmonary rehabilitation, exercise training is the best way to improve muscle function in COPD and other chronic respiratory diseases. After 326 patients hospitalized in the pandemic clinical services of a public hospital were randomly divided into the experimental (n=168) and control groups (n=168), the effect of the experiment on the respiratory parameters of the experiment will be monitored without any intervention in the control group, while deep breathing and coughing exercises will be applied to the experimental group. The aim of this study is to determine the effect of deep breathing and coughing exercises on respiratory parameters in patients treated for pneumonia due to COVID-19 disease.
The investigators aim to evaluate the correlation between PetCO2, PaCO2, and PtcCO2 in patients with respiratory diseases. The investigators also evaluate the correlation between PetCO2, PaCO2, and PtcCO2 changes over time.
Retrospective, case-crossover study aiming to use environmental pollutant data for assessing the associated risk of visiting the emergency room (ER) for respiratory or cardiovascular problems in the territory of the Caltanissetta Provincial Health Authority (Italy). All the ER visits for respiratory and/or cardiovascular disorders in the hospital of Gela (Italy) and Niscemi (Italy) from 2010 to 2019 will be considered.
To demonstrate the clinical performance of the NeuMoDx™ FluA/FluB/RSV/SARS-CoV-2 Assay on the NeuMoDx Systems by determining clinical sensitivity and specificity of the Assay.
This is a prospective, observational cohort registry that aims to collect data on pulmonary structure and function in healthy people and those with respiratory disease, using structural and functional pulmonary 1H-MRI and hyperpolarized 129Xe-MRI. Outcome measures generated from MRI may include but are not limited to measures of regional ventilation, pulmonary microarchitecture, and regional gas exchange. Additionally, one of the goals of the registry is to facilitate the development of novel image analysis techniques that have not yet been invented. These data will be stored along with demographic data, clinical data, and pulmonary function testing (PFT) data. This is an open registry. Eligible local and international investigators/institutions can apply for access.
Profile known and novel biomarkers in blood in COVID19 patients to characterize the host response to SARS-CoV-2 over time and in response to treatment. The investigators aim to: - Better understand the disease. The investigators will achieve this by characterizing the biology of COVID-19 infection and the pathophysiology of the host response using clinical data together with cellular and molecular measurements over the course of the disease. This will allow better insights for the discovery and development of novel therapeutics. - Understand why different patients have different phenotypes and disease presentations over time. The investigators will achieve this by analyzing for patient subgroups. This will allow targeted patient stratification and better matching of resources. - Understand how patients are responding to the different medications being tested in clinical trials. The investigators will achieve that by co-enrolling with therapeutic trials. This will allow an understanding of the biological effects of these interventions. Study Design: Observational adaptive study of a translational nature, combining clinical data and basic science investigations in blood samples in the same patients, longitudinally, with serial interim analyses. Primary outcomes: 90 day ICU mortality. Secondary outcomes: measures of ICU utilization and disease severity, and 90 day in-hospital mortality. The study ends after 3 months from admission to the ICU, hospital discharge or death. Location: St. Michael's Hospital (Unity Health Toronto), an academic center in downtown Toronto affiliated with the University of Toronto. The investigators will collect: A) Detailed clinical data including investigations, mechanical ventilation and cardiovascular parameters. B) Blood samples for state-of-the-art multi-omics biomarker discovery and development: cytokines, anti-COVID19 antibodies, autoimmune serology, metabolomics, transcriptomics, epigenomics, deep immune phenotyping, viral loads. For those patients who die with COVID19 The investigators will perform bedside post-mortem biopsies of lung, heart, kidney and muscle. Sampling times: From admission to the maximal severity phase through convalescence, in order to capture the evolution and dynamics of the disease and the recovery process: days 0,1, 3, 5, 7, 10, 15 and 22, and then every 2 weeks until the end of the study (3 months from admission to the ICU, hospital discharge or death).
The aim of this study is the implementation of Forced Oscillations Technique (FOT) in newborns and small infants using a novel commercially available device. The objective is to assess the feasibility of the method, provide normative data for the first months of life and describe short- and long-term changes in neonatal respiratory disorders. The study population will consist of term and preterm newborns admitted to the Neonatal Intensive Care Unit (NICU) or the Well-Baby Nursery of the University Hospital of Patras, Greece. It is estimated that 200 full-term and 150 preterm newborns will be enrolled during a period of 36 months (March 2021 - September 2022). Measurements will be performed using the TremoFlo N-100 via a face mask, with the infant in the supine position during natural sleep. At least 3 technically acceptable measurements (duration 10s each) will be obtained, as follows: - Healthy full-term neonates: postnatal days 1, 2, 3 and at discharge - Preterm neonates: NICU admission, postnatal days 1, 2 and 3, and on the first day of each additional gestational week until discharge All participants will be also measured at the age of 3, 6 and 12 months.
Fiberoptic bronchoscopy (FOB) is widely used as a diagnostic or therapeutic procedure in intensive care units. Patients with ARDS or COVID-19 disease often undergoes to these procedures. However, intensive care patients might suffer from serious side effects such as prolonged oxygen desaturation and adverse change in lung compliance and resistance. This study aims to evaluate these changes and determine their impact on patient stability.
The study aims to evaluate the reduction in severity and progression of lung injury with inhaled ibuprofen in patients with severe acute respiratory syndrome due to SARS-CoV-2 virus.
The purpose of this study is to determine if an indwelling catheter is more effective than surgical pleurodosis in treating malignant pleural effusion. Who is it for? You may be eligible for this study if you are an adult who is suffering from symptomatic proven pleural malignancy or an otherwise unexplained pleural effusion. Study details Consenting participants will be randomised to one of two treatment arms: - Arm 1: Indwelling pleural catheter. A long term catheter is inserted under the skin in order to allow ongoing drainage of the pleural fluid. Participants will then be instructed to undergo a daily drainage regimen for 14 days at home. - Arm 2: Surgical pleurodesis. Participants under a key-hole surgery to remove fluid and facilitate lung re-expansion. Participants will then be followed up at discharge, 14 days, monthly for 6 months and then every 3 months up to one year post-procedure. These visits will include completion of Quality of Life questionnaires, a chest xray, an ultrasound (if thought necessary) and if you are at the lead site (Sir Charles Gairdner Hospital) a review of your Actigraphy logs up to 6 months after discharge. It is hoped this research will help to provide effective symptom control with minimal intervention for those with malignant pleural effusion.