View clinical trials related to Bronchial Asthma.
Filter by:To optimize the effectiveness of asthma therapy there is a need to identify and address individual patient goals. Considering the self-management discussion as central for the achievement of health outcomes, Healthcare Providers may help patients make specific actions to obtain their desired goals. The current evidence suggest that Healthcare Professionals need to develop a more patient-centered and partnership-based approach based on the development and review of action plans, including the experiential asthma knowledge of patients and caregivers. From a practical perspective, the specialist (i.e. pulmunologists, allergologists, etc) has clear therapeutic targets to be reached in asthmatic patients: for example, improving the disease control, the spirometric values and asthma control test (ACT) score vs. pre-treatment evaluations represent the standard outcomes to reach (GINA 2019). However, as previously described, patients are more likely to achieve an improved clinical outcome when the treatment is driven by a personalized goal. This builds on the same principle as shared decision making between the physician and patient, recognizing both the personal motivation and the accountability on behalf of the patient (Hoskins et al. 2016). This study aims to evaluate if the identification of a personalized outcome allows patients to achieve a better control of asthma in terms of asthma control test (ACT) and asthma quality of life questionnaire (AQLQ). In addition, a set of clinical outcomes (i.e. forced expiratory volume in one second - FEV1, use of rescue therapy, night awakeness) will also be assessed.
Asthma is a significant public health threat, affecting more than 300 million individuals globally. Asthma is classified as a non-communicable disease and leads to reduced quality of life, poor physical functioning and reduced emotional well-being. The impact of this disease can be widespread and extends beyond the person living with the disease, affecting the lives of their family members, carers, communities and the health care system (1). Asthma is a variable chronic respiratory condition. It is characterized by symptoms of wheeze, cough, chest tightness, dyspnea and backed by variable airflow limitation, airway inflammation and airway hyper-responsiveness (AHR). The severity of asthma varies considerably, both between individuals and within individuals over time. Some people may have intermittent asthma and others may experience severe, potentially life-threatening disease (2, 3,4).
This is a randomized, assessor-blind, placebo controlled, multicenter, clinical endpoint bioequivalence study to compare the efficacy and safety of generic fluticasone propionate inhalation aerosol USP 44 mcg (Glenmark Pharmaceuticals Ltd) to Flovent HFA (fluticasone propionate inhalation aerosol) 44 mcg (GSK group of companies) in treatment of patients with bronchial asthma.
Asthma is a chronic respiratory disorder characterized by bronchial inflammation and reversible bronchial obstruction. Severe asthma is an extremely heterogeneous disease, often associated with several comorbidities and risk factors. Severe uncontrolled asthma associated with bronchiectasis is an emerging phenotype. Several studies have attempted to establish an association between asthma and bronchiectasis. Mepolizumab, an Interleukin-5 (IL-5) antagonist, reduces exacerbations, eosinophils, and improves pulmonary function and asthma control. IL-5 is pivotal to eosinophils maturation and release from bone marrow, their subsequent accumulation, activation and persistence in the tissues. IL-5 therefore represents an attractive target to prevent or blunt eosinophils-mediated inflammation. The investigators hypothesize that eosinophils, stimulated by IL-5, play a crucial role in severe asthma and BE pathogenesis.
While the bidirectional relationship between the lung and the right heart are well studied, the cardiopulmonary interactions between the lung and the left heart are largely unresearched and not well understood. However, in recent years, there is a growing evidence that partially explains the bidirectional interaction between COPD and left heart. Systemic inflammation with multiorgan involvement is thought to play a role in COPD as a systemic disease. Some therapeutic approaches to COPD also appear to influence these cardiopulmonary interactions. While understanding these interactions is very important for clinicians, scientific data are scarce. Cardiac magnetic resonance imaging (cardiac MRI) is the gold standard for assessing cardiac function and dimensions as well as myocardial inflammation. Despite this excellent suitability of cardiac MRI for the assessment of cardiovascular function, only few studies have investigated cardiac function and myocardial structure in patients with pulmonary disease using cardiac MRI. Such a study is therefore very important for understanding the effects of pulmonary disease and its management on the heart. The objective is to determine cardiac function in patients with pulmonary disease and to analyze the cardiovascular effects of the treatment of the pulmonary disease. Specifically, the following will be studied: - Using cardiac MRI: Cardiac function and volumes and indications of myocardial fibrosis and edema in patients with chronic pulmonary disease at the time of first diagnosis. - the vascular function of pulmonary arteries in these patients, also using cardiac MRI - the relationship between pulmonary function parameters and cardiac dysfunction to identify patients at increased risk, if applicable. - Echocardiographic assessment of left heart including strain analysis. - the course of these cardiovascular parameters (using cardiac MRI and echocardiography) 3-6 months after initiation of guideline-based therapy for pulmonary disease.
Feilike HeJi is produced by Guizhou Jianxing Pharmaceutical Co. LTD. For the treatment of phlegm heat caused by lung cough phlegm yellow, bronchial asthma, bronchitis, see the syndrome of proprietary Chinese medicine (approval number: Z20025136) approved by the state and the drug from radix scutellariae, radix peucedani, radix stemonae, red gentian root of deal, phoenix tree, spreading hedyotis herb, red tube 7 flavour, with qingrejiedu, antitussive expectorant effect. In order to fully understand the safety of Feilike HeJi in clinical practice and fulfill the responsibility of production enterprises for patients, the production enterprises initiated this study to further evaluate the safety and understanding of the function characteristics of Feilike HeJi in a wide range of people, so as to guide the clinical rational drug use.
Feilike HeJi is produced by Guizhou Jianxing Pharmaceutical Co. LTD. For the treatment of phlegm heat caused by lung cough phlegm yellow, bronchial asthma, bronchitis, see the syndrome of proprietary Chinese medicine (approval number: Z20025136) approved by the state and the drug from radix scutellariae, radix peucedani, radix stemonae, red gentian root of deal, phoenix tree, spreading hedyotis herb, red tube 7 flavour, with qingrejiedu, antitussive expectorant effect. In order to fully understand the safety of Feilike HeJi in clinical practice and fulfill the responsibility of production enterprises for patients, the production enterprises initiated this study to further evaluate the safety and understanding of the function characteristics of Feilike HeJi in a wide range of people, so as to guide the clinical rational drug use.
Nowadays, the COVID-19 epidemic causes stress not only to healthy people but also to people with unhealthy conditions. Excess psychological stress (either in quality, quantity, frequency, and/or duration) could push susceptible individuals to ultimately develop clinical asthma. Depression was significantly associated with asthma interference with daily activities, breathlessness, night symptoms, use of bronchodilators, and poor compliance with medical treatment. Covid-19 pandemic induced the countries around the world to require from its citizens not to ask for health care support rather than in emergency situations and through utilizing telemedicine. This action aims to control spreading the infection with viruses as well as to reduce the workload on the healthcare providers. Although asthma is not listed as one of the chronic conditions that might complicate coronavirus infections, asthma people might have a high-stress level that might induce their asthma attack which consequentially reflects on their quality of life. People with asthma have a unique experience rather than people with other health conditions during COVID-19. Patients with asthma experience a lot of stressors that might induce asthma and impaired their HRQOL such as overuse of antiseptic substances, stay home with a sedentary lifestyle, the sudden shift to telemedicine, and electronic work from home. Also, as a result of the similarity of asthma symptoms with coronavirus symptoms, the patient might have a continuous sense of uncertainty that s/he is infected with the COVID-19 virus, and this suspicion can increase the psychological overburden on these patients. Therefore, all these stressors should be evaluated to recognize their health needs and the kind of social and health support that should be provided to them during the pandemic time. Also, Identifying the predictors of HRQOL among patients with asthma during the pandemic of COVID-19 is urgently required.
Exhaled breath condensate (EBC) represents a rich source for countless biomarkers that can provide valuable information about respiratory as well as systemic diseases. Finding non-invasive methods for early detection of lung injury, inflammation and infectious complications in chronic diseases like (CF) Cystic fibrosis or (AB) Bronchial asthma would be highly beneficial. Investigators propose to establish EBC "breathprints" revealing molecular signatures of pulmonary inflammation and specific respiratory bacterial infections of CF patients and AB. Investigators hypothesize that the analysis of EBC can reveal biomarkers specific for severity of the inflammation, and infection caused by opportunistic pathogens such as P. aeruginosa (PA). With these breath-prints, investigators also propose to establish correlations between respiratory microbiota using traditional methods and CF lung disease severity. Together, the studies will advance the development and validation of EBC as a novel tool for the proper diagnosis of AB and monitoring of CF disease activity, treatment efficacy and PA or another opportunistic infections.
This study aims to determine the TCM syndrome pattern and the distribution of inflammation phenotype in different stages of bronchial asthma; to explore the correlation between TCM syndrome and inflammation phenotype. Secondly screening biomarkers that can be recognized by TCM syndromes and inflammatory phenotypes of bronchial asthma, and provide a basis for individualized diagnosis and treatment of diseases.