View clinical trials related to Respiratory Tract Diseases.
Filter by:Symptoms such as cough, wheeze, and breathlessness are among the most common reasons for general practitioner or emergency department visits in the UK. Such symptoms have a profound impact on patients' ability to live a fulfilled life, often rendering people unable to work and socialise. Azithromycin (a type of antibiotic) improves symptoms and reduces flare-ups of diseases such as asthma and chronic obstructive pulmonary disease (COPD). The reason why it works is unclear. Many people believe that it either decreases the number of bacteria in the lungs or reduces inflammation in the lungs and the upper airways. Neither theory is proven. Another possible mechanism that has been much less studied is that Azithromycin encourages the body to move food and fluid through the gut more quickly, thus preventing reflux and aspiration of small food particles and stomach acid. It has been shown that lung damage can occur when gut contents enter the airways, which may contribute chronic lung disease patients' symptoms In this study the investigators will test the effect of azithromycin on the gut in patients with chronic lung diseases. The investigators will measure the strength of a patients swallow by measuring the pressures in their gullet, using high-resolution oesophageal manometry (HROM), before and after treatment, in people being started on azithromycin as part of their routine care. The investigators will also measure the effect that azithromycin has on their symptoms and observe whether there is a relationship between the strength of their swallow and their symptoms. At the end of this study, the investigators hope to better understand the way in which azithromycin helps to improve the symptoms of patients with chronic lung diseases. The investigators also hope to open the door to investigate the effect of other drugs that improve gut function in patients with chronic lung diseases.
The study is conducted in the context of the COVID-19 pandemic in general, and more specifically in the context of the evaluation of the use of protective masks as a barrier to the spread of the virus. The wearing of masks is one of the recommended barrier measures to limit the spread of the SARS-CoV-2 virus responsible for COVID-19. It is recommended in all circumstances, and mandatory in some. Regardless of the type of mask used (noting that the so-called "surgical" masks are by far the most common), there are various disadvantages associated with wearing them. Dyspnoea (unpleasant or upsetting perception of respiratory activity) is one of these disadvantages. It can lead to reluctance to wear the mask, or to the adoption of inappropriate practices that reduce its effectiveness. This "side effect" of the mask is more pronounced in patients with underlying respiratory diseases. However, not all mask designs are equivalent in terms of their physical properties, which can theoretically generate varying levels of dyspnoea. It is therefore important to determine which mask designs are more or less dyspnogenic, in order to guide the preferential use of certain designs in certain patient categories. The TOLMASK study (Tolerance of SARS-CoV2 Surgical Masks in Patients with Chronic Respiratory Diseases) is a prospective, randomised, triple-blind, single-centre study comparing several surgical masks in a crossover design. The primary objective of the study is to evaluate the respiratory tolerance of different surgical masks and the secondary objective is to evaluate their general tolerance.
This prospective, observational study is designed to investigate clinical outcomes and collect patient feedback on the use of Wellinks, an integrated virtual chronic obstructive pulmonary disease (COPD) management solution, for patients recently discharged from the hospital due to an acute exacerbation of their COPD.
The purpose of the study is to prove the clinical superiority of respiratory rehabilitation software "Redpill Breath" and evaluate the clinical improvement effect by 6-minute walk test of the software, compared to the manual rehabilitation management for those who need respiratory rehabilitation(COPD, Asthma, Lung Cancer, etc.)
Development of a new patient reported outcome measure (PROM) that will measure the daily burden of gastrointestinal symptoms over the previous 24 hour period for people with cystic fibrosis.
Objectives and aim: To evaluate the long-term spill-over (indirect) effect of Coronavirus disease (COVID-19) on health outcomes and healthcare utilization among people with non-communicable diseases and without COVID-19. Design: A population-based cohort study using electronic health records of the Hospital Authority (HA) clinical management system, economic modeling, and serial cross-sectional surveys on healthcare service utilization. Setting: HA public hospitals and outpatient clinics in Hong Kong Participants: People aged ≥ 18 years with a documented diagnosis of diabetes mellitus, hypertension, cardiovascular disease, cancer, chronic respiratory disease, and chronic kidney disease; without COVID-19; attending HA services between 2010 and 2024. Main outcome measures: All-cause mortality, disease-specific outcomes, healthcare service utilization, and costs. Methods: The annual incidence of each outcome in each year between 2010 and 2024 will be calculated. An interrupted time-series analysis to assess the changes in outcomes between pre-and-post-COVID-19 outbreak periods. Long term health economic impact of healthcare disruptions during the COVID-19 outbreak will be modeled using microsimulation. Multivariable Cox proportional hazards regression and Poisson/negative binomial regression to evaluate the effect of different modes of care on the risk of the outcomes. Implications: Findings will inform policies and practices on contingency care plans to avoid excessive morbidity and mortality and to assure the quality of care for patients with NCD as part of the territorial response to the health crisis.
Background: Many adults and some children with COVID-19 or acute respiratory infection become critically ill and need advanced life support in the Intensive Care Unit (ICU). Frailty is a medical condition of reduced function and health. Adults with frailty have a lower chance of surviving critical illness. The investigators are still learning about critically ill adults with COVID-19 or acute respiratory infection, and do not have much information on how frailty affects outcomes in critically ill children, with or without COVID-19 or acute respiratory infection. Rehabilitation can help survivors of COVID-19 or acute respiratory infection by improving strength and improve quality of life (QOL). Objectives: The main goal of this research study is to see if patients with frailty have a lower chance of surviving COVID-19 or acute respiratory infection critical illness and more health problems after survival than patients without frailty. The investigators will also study the types of rehabilitation received by patients with COVID-19 or acute respiratory infection. Methods: The investigators will include adults and children with COVID-19 or acute respiratory infection who are admitted to the ICUs that participate in the study. The investigators will gather data about each patient, including before and during their illness. Outcomes: The investigators will collect level of frailty, function, and types of therapy, or rehabilitation received by patients. In adults, the investigators are most interested in learning if frailty influences mortality, or death. In children, the investigators are most interested in whether children with COVID-19 or acute respiratory infection critical illness are more likely to develop frailty. The investigators will also study post-hospital discharge location in survivors (e.g., home, rehabilitation). Relevance: The COVID-19 pandemic is a global public health crisis. It is critical to understand how COVID-19 and other acute respiratory infection critical illness affects groups of people who are at higher risk, and the impact on outcomes that are important to patients, like functioning and QOL. The results will help policy makers plan post-hospital services for survivors, help healthcare workers understand the importance of rehabilitation practice for patients with COVID-19 or acute respiratory infection, and help researchers develop treatments to improve QOL after COVID-19 or acute respiratory infection.
Manual airway aspiration is a task performed by a nurse or caregiver and if the nursing/care work is overloaded, it has the disadvantage that airway aspiration cannot be performed an appropriate number of times according to the needs of the patient. Therefore, an electric phlegm suction system that can compensate for the shortcomings has been developed. The purpose of this clinical trial is to compare and evaluate the efficacy and safety of the test device by applying the unmanned electric phlegm suction system procedure using an investigational device (LMECA.A1000) and the conventional manual airway aspiration procedure to the patients who received mechanical ventilation through the artificial airway in this clinical trial.
The SOLIDARITY PLUS Finland Long-COVID trial aims to assess the long-term effects of imatinib and infliximab, used during acute hospitalization due to COVID-19-infection, on long-COVID symptoms and quality of life (QoL) using questionnaires at six months, one and two years post-discharge. The primary research questions are whether imatinib or infliximab lower the risk of long-COVID symptoms and leads to better QoL in the long term. Objectives include: i) Long-COVID symptoms To investigate the effect of imatinib (vs. usual care only) and infliximab (vs. usual care only) on the occurrence of symptoms that have been associated with the long-COVID syndrome. The questionnaires will take place at six months, one and two years after the hospital admission. The questionnaire will be the same that has been used in the SOLIDARITY Finland Long-COVID trial on remdesivir. The questionnaire was developed by our multidisciplinary team of physicians, including the representation of multiple specialties such as general practice, lung diseases, neurology, internal medicine, rheumatology, genetics, and clinical epidemiology, and two patient partners. The symptom questionnaire - that will be completed by patients at one and two years - measures basic patient information (age, height, weight, smoking status, major comorbidity, and working status) and a wide variety of potential long-COVID-symptoms and their bother (1. Fatigue; 2. Attention deficits; 3. Memory problems; 4. Sleeping difficulties; 5. Depressive mood; 6. Anxiety; 7. Dizziness; 8. Headache; 9. Tinnitus; 10. Paresthesias; 11. Changes in taste/smell perceptions; 12. Postexertional malaise; 13. Palpitations; 14. Chest discomfort; 15. Nausea; 16. Skin rash; 17. Joint aches; 18. Muscle pains; 19. Continuous cough; 20. Respiratory tract mucous discharges). ii) Quality of life The EQ-5D-5L questionnaire will be used to compare patients' quality of life in imatinib, infliximab, and usual care arms. EQ-5D-5L questionnaire assesses the following domains: 1. Mobility; 2. Self-care; 3. Usual activities; 4. Pain and discomfort; 5. Anxiety and depression; 6. The visual analog scale of subjective perception of overall health. Additionally (at 1 or 2 years; depending on future funding and ethical approval decisions): - The Finnish healthcare registries (such as Statistics Finland Mortality Database, the HILMO Care Register for Health Care, and/or Digital and Population Data Services Agency (Finnish Digital Agency)) will be used to estimate long-term mortality and incidence of major comorbidity in treatment arms. - Lung function will be assessed using spirometry and diffusing capacity, as well as the six-minute walk test (6 mwt) in treatment arms. - Whole-genome genotyping will be performed for a genome-wide association study to investigate genetic correlates of long-COVID-19 -symptoms in treatment arms.
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.