Active clinical trials for "Respiratory Tract Diseases"

This is an open label controlled household-randomised trial designed to evaluate the efficacy of RESP301 alongside standard of care ("SOC") versus SOC alone.

Acute respiratory infections and other respiratory and cardiology diseases like COPD or heart failure are important causes of morbidity and mortality around the world. Telemedicine is defined as the delivery of health care and the sharing of medical knoledge over distances using telecommunication systems. Inexpensive techologies offer the possibility of a direct, real-time connection between the patient or the other end. These technologies help to the physicians to manage different symptoms and cardio-respiratory diseases. A real-time wireless tele-stethoscopy system was designed to allow a physician to receive real-time cardio-respiratory sounds from a remote auscultation, as well as video images showing where the technician is placing the stethoscope on the patient´s body. Actually, the lack of physicians in rural areas of developing countries makes difficult their correct diagnosis and treatment. Furthermore, in the majority of health systems, the patients are shared between primary care and medical specialty in hospitals. The tele-stethoscopy system through telemedicine could help to the physicians or health-care technicians in the majority of health systems and especially in rural areas of developing countries without physicians to manage the patients. For this reason, the goal of this project is the clinical validation of an open real-time tele-stethoscope systme (EHAS-Fundatel digital stethoscope) previously designed, with different specialist (pneumologists, cardiologists and internists.)

Long-term oxygen therapy (LTOT) is the reference treatment for chronic respiratory failure. This treatment is based on the principle of oxygen supplementation via a source to correct hypoxemia in patients. At present, adherence to this treatment is difficult to evaluate (reporting by patients), but the results of the literature show poor LTOT compliance. It is therefore important to accurately measure the oxygen consumption by patients and to understand the factors explaining LTOT compliance. The ultimate aim is to improve our patient management to make them more observant in order to improve the therapeutic efficacy of the treatment.

The aim of this study is to investigate if patients hospitalised for medical disease will increase their time spent out of bed during hospitalisation through simple feedback about physical activities from a mobile device. Physical activity is measured by means of a pair of accelerometers embedded in band aids placed on the thigh and on the chest. The measurement is continuous and data is uploaded to a secure internet-server. Summaries of physical activity (bedrest, sitting, standing, walking) is computed and can be displayed on a mobile device (tablet) through a dedicated application. The study will be conducted as a controlled cohort study in a large tertiary public hospital in Copenhagen, Denmark. Patients admitted to Department of Respiratory Medicine will be included and will have their physical activity measured during hospitalisation. Half of the cohort will receive visual feedback about the amount of physical activity from a mobile device placed on the bed table. A total of 108 patients will be included resulting in 6 periods of 18 patients each.

EtCO2, or exhaled carbon dioxide, is a non-invasive and commonly used measure for respiratory rate and function. It can be easily monitored using a device called a capnograph, which consists of a sensor that is placed near the patient's mouth or nose and a monitor that displays the concentration of carbon dioxide in the respiratory gases in real-time. EtCO2 capnography is generally considered a reliable and accurate method for monitoring respiration and is often used as a gold standard for comparing the performance of other methods for measuring respiration. Therefore, the primary aim of this study is to provide a thorough comparison of the performance of Sleepiz One+ and EtCO2 Capnography for measuring respiration rate, in healthy adults and patients suffering from chronic conditions (e.g. hypertension, COPD, asthma, diabetes), at rest in a clinical setting. Additionally, the performance of heart rate estimation will be evaluated against ECG.

Spirometry is a biomedical test to measure lung function in subject who (may) have a chronic respiratory condition. Performing the test requires a certain level of training and experience from the health care professional who conducts the test, and sufficient cooperation of the patient. Although the test is widely used in primary care in many countries, the quality of the test performance seems limited and needs improvement in order to avoid false-positive and false-negative test interpretations. In this study, the researchers investigated whether a combination of e-learning and bimonthly written performance feedback to family practice nurses and assistance regarding their spirometry tests improves the rate of adequate tests.

Background and Objectives: Seizure attack is one of adverse effects of vaccination in epileptic patients, the risk of which after severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) inoculation was elucidated in the present study. Methods: A self-controlled case series study was designed to examine the association between vaccination and epileptic seizure. A total of 240 epilepsy patients were included who were vaccinated with inactive SARS-CoV-2 vaccines (Sinovac Life Sciences and Lanzhou Institute of Biological Products) and admitted to outpatient clinics from July 2021 to December 2021. Poisson analysis was performed to estimate the relative incidence rate of epileptic seizure in risk periods (day 1-7, 8-21 and 1-21 after first-dose vaccination) compared to basal level in control period.

Respiratory diseases are very common and are the third leading cause of death in England. As such, there is strong interest in understanding how respiratory disease occurs. This study intends to understand the changes that occur within diseased/injured lungs obtained from humans. The end goal of this will be to create new drugs to help treat these disorders. Diseased lungs will be obtained from patients receiving a lung transplant. Lungs will either be placed onto a heart-lung machine, or surgically cut in order to create a model of the lung that can be used experimentally in the laboratory. Using a heart-lung machine, lungs can be maintained outside of the human body for a maximum of 12 hours, allowing the direct assessment of the organ. Using this procedure, we aim to understand the processes that occur within a disease, as well as during repair. Using the model of the lung, we will look at how the body's immune system interacts within a diseased lung.

The BREATHE (Behavioral Research of Environment and Air Pollution Through Education) study is a pilot randomized control trial comparing the efficacy of a classroom-based intervention to no intervention in helping middle-school students understand and make behavioral decisions about air pollution. This study is designed to evaluate the effectiveness of the classroom-based intervention on knowledge of air pollution, understanding of air pollution sources, and behavioral choices made to reduce both contributions to air pollution and personal exposure to air pollution. It has been well established that pollution is a racial and economic issue. Low-income areas with populations of predominantly people of color tend to be those with the highest rates of pollution and the largest particulate exposure. Creation of and exposure to this pollution is a key issue for the health of inhabitants of these areas, and of those in the broader surrounding areas. By developing, and assessing the effectiveness of, the investigators hope that the BREATHE study will give the investigators insights into how to better combat this higher exposure and reduce the health risks for those in high pollution areas. The study will take place in 4 visits over a period of 12 months. The hypothesis is that the classroom-based intervention will be effective in leading to behaviors that will reduce exposure to air pollution.

Study to obtain data about changing from the chlorofluorocarbon (CFC) - containing Berotec® 200 µg metered - dose inhaler to the CFC - free Berotec® N 100 µg metered - dose inhaler