View clinical trials related to Respiration Disorders.
Filter by:Bronchial fibroscopy (BF) is a routine practice examination in critical care areas. It can be useful either for the diagnosis of the causal pathology of respiratory distress or for the diagnosis of lung infection, sometimes nosocomial. In patients in spontaneous and conscious ventilation, BF are performed vigil after local anesthesia according to the recommendations of the Société de Pneumologie de langue Française. The good tolerance of the examination and its good conduct may require the use of anxiolytics, sedatives or analgesics to limit the traumatic experience of a highly anxiety-provoking examination. Virtual reality (VR) combines a set of paramedical techniques (hypnosis, music therapy, sophrology) and is now a non-drug alternative to improve the tolerance of certain invasive gestures.VR has been shown to reduce pain and anxiety during first pathways placement or digestive endoscopies. To date, there is no evidence of the benefit of VR when performing semi-urgent BF in critical care areas.
A prospective basic science study for collection of training and testing data for development of Lifelight® Junior
Some military personnel who have been exposed to burn pit emissions, desert dust, and other airborne hazards experience new respiratory symptoms after deployment. The goal of this clinical trial is to learn about exercise in veterans with new respiratory symptoms after deployment to Southwest Asia. The main questions it aims to answer are: 1. Do veterans with new respiratory symptoms after deployment have heart or lung abnormalities that contribute to difficulty exercising? 2. Does high-intensity interval training (HIIT) improve fitness and symptoms? Study participants will complete the following: 1. Study Visits 1A and 1B: Exercise test (VO2max test), echocardiogram (heart ultrasound), blood tests, questionnaires 2. Exercise program: 12 weeks of 3x/week supervised HIIT on upright stationary bicycle (~40 minutes each) and 3x/week home aerobic exercise (45 minutes each) 3. Study Visits 2A and 2B: Exercise test (VO2max test), echocardiogram (heart ultrasound), blood tests, questionnaires
Participants with respiratory disease experience often a worsening of their condition, with increasing symptoms such as cough and shortness of breath. This worsening, often called exacerbation or flare up, impacts on the life of the participants, since they become limited in their daily activities. Healthcare is still based today on limited times for clinical appointments to perform investigations and to meet with specialists/clinicians. Very often, these evaluations do not reflect the way the disease is limiting the patient's life. Wearable devices offer the opportunity to collect data on physical activities and important clinical parameters (such as how the patient is active or just staying in bed during the day), on a daily basis. The HG Phoenix AI- based Smart Watch produced by Health Gauge, an Albertan company based in Edmonton, has the potential to measure heart rate, heart rate variability, blood pressure, pulse wave velocity, respiratory rate, temperature, arterial saturation, sleep pattern (deep, light sleep, awake time), duration and time, daily physical activities (site count and distance) and calories burnt in a simple and non-invasive fashion. Ideally, these parameters could be monitored and recorded 24 hours per 7 days per week. This study aims to demonstrate that this device can be used for a long time at home and it is comfortable to use for the participants, that it is not dangerous and, possibly, that it can help to identify exacerbations before the currently available investigations.
This research study is being conducted to evaluate the feasibility of using technology to deliver a remote home exercise program and assess the health outcomes of patients with chronic lung diseases. Specific objectives are to assess the interventions on patients: 1) Lung function, 2) Dyspnea, 3) Fatigue, 4) Exercise capacity, 5) Self-efficacy, and 6) Health-related quality of life. The investigators will also be evaluating the practicality of using videoconferencing and commercial wearable telemonitoring devices (ie. smart watches) for the implementation of the intervention in this group of patients.
Pulmonary rehabilitation is a program that helps people with lung disease improve their function. It uses exercise, education, and self-management strategies to improve physical ability and quality of life. Because some people are unable to visit West Park Healthcare Centre, we established a remote supervised pulmonary rehabilitation program that patients can access via an electronic device (computer, tablet or smart phone). Regular quality assurance is necessary to ensure that the program is effective. We plan to collect and summarize the program's results. The benefit of doing so is that it allows us to make any changes or improvements that may help patients with chronic respiratory conditions.
The purpose of this study is to evaluate the efficacy of tracheal suctioning associate with expiratory pause maneuver in children on invasive mechanical ventilation.
Aspirin-exacerbated respiratory disease (AERD) is characterized by the presence of asthma, chronic rhinosinusitis with nasal polyposis (CRwNP), and acute respiratory reactions induced by aspirin and other cyclooxygenase-1 inhibitors. One of the well-established therapeutic options is aspirin desensitization followed by daily aspirin therapy. The potential mechanisms underlying the clinical benefit of this approach include the downregulation of CysLT1 receptor, inhibition of PGD2 and interleukin IL-4 via the signal transducer and activator of transcription 6, global (blood, urine) activation of type 2 (T2) inflammation as well as local (sputum) reduction of T2 asthma inflammation. Indeed, among current aspirin-treated patients with AERD (n=37), no one had severe acute respiratory syndrome coronavirus clade 2 (SARS CoV-2) infection and most importantly, none of them developed COVID19 during pandemic. WHY? Notably, patients with AERD did not have asthma and nasal polyps exacerbation on aspirin, which is in line with other studies. Respiratory infections, such as the current COVID-19 pandemic, target epithelial cells in the respiratory tract. SARS-CoV-2 spike (S) protein binds angiotensin-converting enzyme 2 (ACE2), and in concert with host proteases, principally transmembrane serine protease 2 (TMPRSS2), promotes cellular entry. Nasal and bronchial epithelium play a key role in the early phases of an immune response to respiratory viruses. Induced sputum (IS) and nasal lavage (NL) cells are likely the first immune cells to encounter SARS CoV-2 during an infection, and their reaction to the virus will have a profound impact on the outcome of the infection. Interferons (IFNs) are antiviral cytokines and among the first mediators produced upon viral infection. IFNs are divided into three groups based on their receptor usage; type I IFNs (IFN-α and IFN-β), type II IFN (IFN-γ), and type III IFNs (IFN-λ1 and 2). Both production of IFN and cellular response to IFN are critical steps for the restriction of viral dissemination. An interferon-stimulated gene (ISG) is a gene whose expression is stimulated by interferon. Specifically, type I and type III interferons are antiviral cytokines, triggering ISGs that combat viral infections. The type II interferon class only has one cytokine (IFN-γ), which has some antiviral activity. To conclude, the assessment of gene expression for interferon α1 (IFNA1), interferon β1 (IFNB1), interferon γ (IFNG), interferon λ1 and λ2 (IFNL1 and IFNL2) as well as for ACE2 and TMPRSS2 in sputum and nasal cells may shed new light on the course of this infection in patient with AERD during long term aspirin therapy.
Patients referred to internal medicine wards are becoming increasingly complex and fragile. Despite deep knowledge of their specific disorders, steps are required to improve overall management of their acute and chronic conditions. The main objective of the study is to identify demographic, clinical, laboratory and radiological markers of disease severity and activity in patients with diseases treated at general medicine wards (respiratory disease, immune-mediated disease, sepsis, metabolic disease, rare disease, frailty, pregnancy pathology) in order to improve their diagnosis, monitoring and treatment processes.
Human rhinovirus is also called the "common cold virus" because it causes at least half of all of the common colds experienced each year. In patients with asthma, getting a rhinovirus infection can cause worsening of asthma symptoms. Although these symptoms are well known, researchers do not fully understand how the virus worsens these asthma symptoms, nor do they really know whether virus infection causes longer term structural changes (often referred to as airway remodeling) in the airways. This study plans to address and answer these questions. Doing so will provide the researchers with a better understanding of how to treat the worsening of asthma that are caused by human rhinovirus infections. The epithelial cell is the cell that lines the surface of your airways from your nose down to your lungs, and is also the cell type that gets infected by rhinovirus. At present, it is thought that the virus causes symptoms by changing epithelial cell biology in a way that causes airway inflammation. Some of these inflammatory molecules are also thought to cause scarring (remodeling) of the airways, which over time, may lead to a loss of lung function. In order to examine how the virus causes inflammation, many earlier studies have used experimental infection with the virus and have measured various markers of inflammation. The purpose of this study is to compare the levels of inflammatory and remodeling products in the airways of study participants with mild to moderate asthma and healthy, non-asthmatic subjects after infection with rhinovirus (the common cold virus).