View clinical trials related to Dyspnea.
Filter by:Dyspnoea is the uncomfortable shortness of breath that debilitates millions of patients with lung disease, heart failure and cancer. It is often very difficult to treat. The sensations of dyspnoea are processed in the brain, and we believe that psychological factors modify and amplify these sensations, frequently exacerbating symptoms. This study aims to identify the importance of learning in the brain mechanisms of dyspnoea by investigating a cohort of patients with chronic breathlessness undergoing pulmonary rehabilitation . Pulmonary rehabilitation is a six-week course of exercise, education and group therapy that improves dyspnoea but does not improve lung function. This leads us to hypothesise that some of the beneficial effects of PR maybe due to changes in brain processing, potentially relating to a learning effect. Therefore to probe whether learning is important in the beneficial effects of pulmonary rehabilitation, we intend to modify learning with the drug d-cycloserine. D-cycloserine is an antibiotic that enhances learning due to its effects at N-methyl D-aspartate (NMDA) receptors in the hippocampus. Our previous study in a similar group of patients demonstrated the importance of the hippocampus in breathlessness perception, and we now wish to investigate this in more depth. The study involves collecting physiological, psychological and clinical measures on in conjunction with brain scanning, before, during and once after pulmonary rehabilitation. Subjects will either receive d-cyloserine or placebo before the first four pulmonary rehabilitation sessions.
Breathlessness on exertion is a common and troublesome complaint of individuals with restrictive lung disorders. In these adults, breathlessness contributes to physical activity-limitation and avoidance and an adverse health-related quality-of-life, often in a self-perpetuating cycle. It follows that alleviating dyspnea and improving exercise tolerance are among the principal goals in the management of adults with restrictive lung disorders. Nevertheless, effective management of breathlessness and physical activity-limitation remains an elusive goal for many healthcare providers and current therapies (e.g., antifibrotic agents, oxygen, exercise training) are only partially successful in this regard. Thus, research aimed at identifying breathlessness-specific medications to complement existing therapies for the management of physical activity-related breathlessness in restrictive lung disorders is timely and both clinically and physiologically relevant. The purpose of this randomized crossover study study is to examine the acute effects of two doses of inhaled nebulized furosemide (a loop diuretic) on the perception of breathlessness during laboratory-based cycle exercise in healthy, young men in the presence of an external thoracic restriction to mimic a 'mild' restrictive lung deficit. To this end, the investigators will compare the effects of inhaled 0.9% saline placebo and inhaled furosemide (40 mg and 120 mg) on detailed assessments of breathlessness (sensory intensity and affective responses) and its physiological determinants (ventilation, breathing pattern, dynamic operating lung volumes, cardio-metabolic function) symptom-limited, high-intensity, constant-work-rate cycle exercise testing with external thoracic restriction sufficient to mimic a 'mild' restrictive pulmonary deficit in healthy, men aged 18-40 years.
During the previous phases of the project (Phase I and II), two new field tests have been designed and validated for an integration in a primary care setting in Chronic Obstructive Pulmonary Disease (COPD). These new field tests are 3-min paced-walk test (3MPWT) and 3-min paced step test (3MPST). If the validity and sensitivity of the TM3 could be highlighted, particularly by the reduction of dyspnea level following bronchodilatation, Phase II highlight that the 3MPST does not allow to detect this decrease of dyspnea after bronchodilatation. The use of too high step rates could explain these results through a hypothesis relative to neuromechanical coupling of dyspnea. The main objective of this trial is to follow the investigations on the sensitivity of 3MPST to detect the effects of pharmacological intervention on the exertional dyspnea in COPD patient. The hypothesis of this work is that the use of lower step rates cadences could allow to detect an improvement of exertional dyspnea following treatment-induced bronchodilatation, contrary to higher step rates.
The objective of this work is to investigate and then to sequence new biomarkers in the plasma of patients presenting with dyspnea secondary or not to heart failure, and study their diagnostic and prognostic value.
For the patient with acute dyspnea in the ED, early differentiation between CHF and non-CHF causes is essential for proper management. The capacity to triage patients quickly and accurately has a beneficial impact upon outcome, disposition, stratification and length of stay in the ED and required length of hospital admission. The ability to assess pulmonary status rapidly by quantitative regional vibration technology offers significant potential advantage for earlier diagnosis. The VRI technique may provide a quick and accurate method of differentiating between dyspnea due to HF and dyspnea due to pulmonary causes; thereby improving management and outcomes.
The feeling of shortness of breath is very common in lung cancer. It is uncomfortable for patients and upsetting for their family. Although drugs like morphine and oxygen can help some patients feel better, they don't help everybody, and they are not used in patients with early symptoms. More relief is needed for these patients. The investigators are studying a drug called tiotropium, which is used in emphysema. It is an inhaler that opens the airways to allow easier breathing. Every patient will get the drug but also a placebo, in a random (flip of a coin) order. They will get each for 2 weeks. The investigators will see if they feel better with the drug.
RATIONALE: Gathering information about how patients, caregivers, and healthcare professionals cope with symptoms caused by lung cancer, such as breathlessness, cough, fatigue, anxiety, depression, pain, and difficulty sleeping, may help doctors learn more about non-drug methods of treating symptoms of respiratory distress. PURPOSE: This clinical trial is studying how caregivers help patients cope with respiratory and other symptoms caused by lung cancer.
The purpose of this study is to determine how electrical impedance is modified in relation to extracellular space body fluid retention detected by an electrical bioimpedance method in patients with heart failure.
The aim of this study is to evaluate the impact of a Breathlessness Intervention Service (BIS) on the quality of life of patients and families affected by intractable breathlessness. The questions to be addressed by this research are: 1. Is BIS more effective than standard care for patients with intractable breathlessness from advanced malignant or non-malignant disease? 2. Does it reduce patient and carer distress due to breathlessness, and increase patients' sense of mastery of the symptom? 3. What are the experiences and views of those who use BIS, their informal carers and the clinicians who refer to it? 4. Does BIS offer value for money for the NHS?