View clinical trials related to Dyspnea.
Filter by:Inspiratory Muscle Training (IMT), which is used to strengthen the respiratory muscles, is one of the techniques used in PR. It is mostly used in patients with chronic obstructive pulmonary disease, and has been shown to be beneficial for functionality and also for relieving dyspnea perception. It is reported in the guidelines that IMT has additional benefit for endurance in COPD patients. However, there are no studies related to its use and effectiveness in lung transplantation. In this study, we hoped to increase these known benefits by adding IMT to the standard Pulmonary Rehabilitation. There are two main objectives of this study: 1. to examine the effect of respiratory muscle training on exercise capacity in lung transplantation candidates, 2. to compare dyspnea perception and lung function changes between the IMT+PR group and the PR group.
Non-invasive ventilation (NIV) has shown to be an effective therapy for patients with Chronic Obstructive Pulmonary Disease (COPD) with Chronic Hypercapnic Respiratory Failure (CHRF). However, these COPD patients often report severe dyspnoea after switching off from NIV therapy, which leads to discomfort and distress. Currently, it is not known what causes this deventilation dyspnoea and therefore a possible treatment to prevent deventilation dyspnoea is not available. This study investigates possible mechanisms underlying the phenomenon of deventilation dyspnoea in COPD patients by monitoring the effects of NIV on the patient during an afternoon sleep.
To develop an experimental model of dyspnea by external thoraco-abdominal elastic strapping at rest in order to study the mechanisms involved in the relief of dyspnea by the administration of high flow by nasal cannula (HFNC).
Background: Breathlessness is common through a range of chronic and life limiting diseases, such as chronic pulmonary disease and congestive hearth failure. There is a lack of knowledge concerning the understanding of the experience of breathlessness such as the relation between predicted, experienced and recalled breathlessness. Method: Questions on breathlessness intensity will be asked to participants with breathlessness several times daily through a mobile application installed on the users own cellphone. The mean experienced breathlessness will be related to the predicted and the recalled breathlessness as well as to background factors.
For patients admitted to the medical ward, it is usually difficult to predict if their clinical condition will deteriorate, however subtle changes in vital signs are usually present 8 to 24 hours before a life-threatening event such as respiratory failure leading to ICU admission, or unanticipated cardiac arrest. Such adverse trends in clinical observations can be missed, misinterpreted or not appreciated as urgent. New continuous and wearable 24/7 clinical vital parameter monitoring systems offer a unique possibility to identify clinical deterioration before patients progress beyond the point-of-no-return, where adverse events are inevitable. The WARD-COPD project aims to determine the number and duration of cardiopulmonary micro events during the first 4 days after hospital admission with Acute Exacerbation of COPD. We will also test the server installation, develop a database of core data and assess the frequency of artefacts and failure to capture the continuous monitoring signal.
Breathlessness during exertion is a major limiting factor for patients' physical capacity and activity. Increased exertional breathlessness often results in impaired activity, spiraling deconditioning and further worsening of exertional breathlessness, quality of life and prognosis. Recalled symptoms (from memory) can differ substantially from the actually experienced symptoms.The recall of symptom intensity is affected by several factors including the experienced peak intensity and the intensity at the end of the episode. This 'Peak-end-rule' has been reported in studies of pain, and in breathlessness in daily life and during exercise. A randomized trial reported that adding a time period with decreased pain at the end of a colonoscopy decreased the patient's recalled total pain of the event, improved their overall perception of the event and made them more willing to participate in similar procedures in the future. Pulmonary rehabilitation training is the first line treatment for exertional breathlessness and deconditioning in cardiorespiratory disease. However, the training as well as physical activities of daily life are often limited by the person's perception of his/her capacity, which is based on recalled breathlessness during exertion. The person's predicted breathlessness - that is, the level of breathlessness that the person predicts will occur during a future activity, is likely a major determinant of his/her willingness to participate in training as well as of the level of physical activity in daily life. To improve the effectiveness of cardio-pulmonary rehabilitation training and the patients' health status, new approaches for decreasing the perceived exertional breathlessness and optimize training are needed. The investigators hypothesize that adding a period of lower breathlessness intensity at the end of training might be a way to manipulate the recalled (remembered) symptom intensity during the training, and to improve the subject's perceived future exercise capacity and willingness to participate in physical exercise/ training.
In palliative care, the relief of the dyspnea is necessary. Medications for the reduction of dyspnea have side effects. High-flow nasal cannula oxygen therapy (HFNC) is a new way to deliver oxygen. Investigators hypothesize that HNFC is an acceptable technic for the patient with dyspnea in palliative care. A pilot study with 30 patients will be conducted. Acceptability of HNFC will be studied by the time of use by patients of the HNFC during one week. The effectiveness of HNFC in relieving dyspnea will be studied using Borg scale.
Activity-related breathlessness (dyspnea) is the dominant symptom and persists despite optimal medical care in as many as 50% of patients with advanced chronic obstructive pulmonary disease (COPD). The objective of this project is to determine the underlying mechanisms of the activity-related breathlessness in patients with advanced COPD. To study the different pathways involved in causing breathlessness, we will compare the effects of two treatments, opiates with oxygen versus bronchodilators, which relieve breathlessness in different ways.
Mind-body exercise improves symptom of negative moods, dyspnea and quality of life in chronic diseases, but these improvements for chronic obstructive pulmonary disease (COPD) are unproven. This study aims to examine the effects of dyspnea, exercise capacity, heart rate variability(HRV), anxiety, depression, interoceptive awareness, quality of life(QoL) in patients with COPD across a three-month mind-body exercise program.
This study will test the use of a new handheld device (called the N-Tidal C), that measures a person's tidal breath carbon dioxide, in diagnosing the cause of someone's breathlessness. It will also evaluate whether this device can detect when a person's breathing problem is getting worse.