View clinical trials related to Dyspnea.
Filter by:To assess the correlation between aspects of the dyspnea scale (indicating poor functionality), the fall efficacy scale (indicating a higher fear of falling), and all aspects of the SF36 (indicating quality of life) in 3 age groups: adolescents, youth, and geriatrics.
Effect of Senobi breathing exercise versus Buteyko breathing technique on functional performance among chronic obstructive pulmonary patient.
Heart failure is a special clinical syndrome such as difficulty breathing, fatigue, and swollen legs characterized by increased JVP, crackle lung sounds, and peripheral edema caused by heart disorders both structural and/or functional, resulting in decreased cardiac output and increased intracardiac pressure at rest and activity. Body positioning has been shown to affect stroke volume and parasympathetic modulating activity. The right lateral 30" semifowler position is a very safe position in heart failure patients admitted to the ICU. Although body positioning can affect stroke volume, and parasympathetic modulation, it is not yet clear what effect it has on cardiac output
It was planned to examine the effects of breathing exercises applied with virtual reality glasses on dyspnea, anxiety and quality of life in COPD patients. The study was planned to be conducted in a single-blind pre-test post-test parallel group randomized controlled experimental design. Hypotheses created for the research; H0a: There is no difference between the dyspnea scores of the experimental group and the control group in the post-test in COPD patients. H0b: There is no difference between the anxiety scores of the experimental group and the control group in the post-test in COPD patients. H0c: There is no difference between the quality of life scores of the experimental group and the control group in the post-test in COPD patients. H1a: There is a difference between the dyspnea scores of the experimental group and the control group in the post-test in COPD patients. H1b: There is a difference between the anxiety scores of the experimental group and the control group in the post-test in COPD patients. H1c: There is a difference in quality of life scores between the experimental group and the control group in the post-test in COPD patients. It is planned to apply breathing exercise through virtual reality glasses for 8 weeks to the experimental group. It is planned that the exercises will be done three times a week in a total of 24 sessions. No intervention will be applied to the control group. It is planned to collect the research data in the pre-test, four weeks after the pre-assessment, and in the post-test (in the eighth week of the study). Inclusion criteria for the study; Being over 18 years old, being GOLD Stage II-III COPD (FEV1/FVC<70%, FEV1<80%), being >24 as a result of the mini mental state assessment test, residing in the city center where the research was conducted. Exclusion criteria; exacerbation of COPD for the last four weeks, pneumonia, use of psychiatric medication.
Although there are numerous data demonstrating the impact of Interstitial Lung Disease (ILD) on respiratory functions, there is a lack of studies investigating the effects of respiratory functions on parameters such as sleep quality, dyspnea, and fatigue. The primary objective of the study is to examine the influence of changes in respiratory muscle functions in ILD on sleep quality, dyspnea, and fatigue parameters. The secondary objective is to investigate the effects of respiratory muscle functions in ILD on parameters such as cough, pain, exercise capacity, peripheral muscle strength, anxiety, depression, and quality of life.
Abstract Purpose: This study aimed to determine the effect of mobile application-based exercise programs on the quality of life and dyspnea of patients with chronic obstructive pulmonary disease. This study was designed experimentally with a randomized control group. Methods: A total of 76 COPD patients were included in the study. Individuals aged 40 and over with COPD were included in the study, while individuals with communication, mental, neurological and cognitive problems and unable to exercise were excluded from the study. Among those who met the inclusion criteria, those who had a smart-phone were assigned to the experimental group, while those who did not have a smart-phone were assigned to the control group. Self-management training was given to all individuals in both the control and experimental groups. After the training, the Saint George Respiratory Questionnaire (SGRQ) and dyspnea tests were administered to both groups. After the rehabilitation exercise program developed for the patients in the experimental group was applied, the tests were repeated for all groups. Results: The mean age of the patients in the study was 65.5708± 9 in the control group, while the mean age of the experimental group was 67.61± 9.93. While the Borg dyspnea scale results of the experimental group were 6.45± 1.90 in the first test, the post-test measurements were 5.16± 1.65 (t = 7.66, p = 0.00). SGRQ pre-test and post-test total scores were 50.78± 16.39 and 41.99±15.04, respectively, in the experimental group (t=6.80 and p=0.08). Conclusion: Respiratory and muscle strengthening exercises applied with the support of the mobile application, positively affected the quality of life of patients with COPD.
An assessment of the effectiveness of Stellate Ganglion Block in alleviating symptoms of Long COVID-19.
In intensive care unit, dyspnea, the distressing and fearful awareness of breathing, is frequent and harmful. To be treated, dyspnea must be detected and quantified, which is impossible in approximately 50% of patients receiving invasive mechanical ventilation. However, these non-communicative patients are exposed to the same risk factors for dyspnea as communicative patients and the impossibility to communicate a suffering increases its traumatic impact. In addition, simple therapeutic means, such as optimizing the settings of the ventilator, can significantly alleviate or even eliminate dyspnea. It is therefore particularly important to be able to detect and quantify it effectively. The Mechanical Ventilation - Respiratory Distress Observation Scale (MV-RDOS) is an observational dyspnea scale that bypasses patient involvement and represents a promising tool in the detection of dyspnea in non-communicative patients. However, its use is partly based on the observation of the facial expression of fear or the abdominal paradox, the assessment of which remains subjective. The analysis of ventilatory variability, which reflects the load-capacity balance of the respiratory system, could provide an alternative to detect dyspnea in these patients. The investigators are therefore going to measure the ventilatory variability using the thoracic motion signals obtained with a force sensor integrated in a chest strap and the ventilatory flows at airways in patients receiving invasive mechanical ventilation during a spontaneous breathing trial and compare the indices of ventilatory variability with the dyspnea visual analog scale in communicative patients and with the MV-RDOS in all patients (communicative and non-communicative).
Dyspnea is one of the most common reasons for admission to the emergency department[1]. Oxygen saturation has great importance in determining the triage status of patients admitted to the hospital with dyspnea and planning the emergency treatment [2]. Peripheral perfusion index (PI), which shows tissue oxygenation is a noninvasive way of demonstrating tissue perfusion in critically ill patients. Studies have shown that PI is an accurate, fast and reliable pulse oximetry-based indicator of tissue perfusion [3-5]. PI shows the perfusion status of the tissue in the applied area for an instant and a certain time interval. The PI value ranges from 0.02% (very weak) to 20% (strong) [6]. Triage scales are used to distinguish emergency and non-emergency patients. The emergency triage system is used to quickly determine the care priorities of patients during admission to the emergency department[7,8]. It is important to make the triage classification for dyspnea in emergency services quickly and accurately to start the treatment protocols as early as. In this study, the investigators aimed to determine the relationship between perfusion index and the emergency triage classification in patients admitted to the emergency department with dyspnea.
Bronchiolectasis is the manifestation of chronic bronchitis characterized by saccular dilatation of the terminal bronchioles & bronchiectasis refers to abnormal dilatation of the bronchi. In bronchiolectasis more proximal bronchi may or may not show radiological changes. Airway dilatation can lead to failure of mucus clearance and increased risk of infection. Pathophysiological mechanism of bronchiectasis/bronchiolectasis include persistent bacterial infections, deregulated immune responses, impaired mucociliary clearance and airway obstruction. Treatment is directed at reducing the frequency of exacerbations, improving quality of life. Although no therapy is licensed for bronchiectasis by regulatory agencies, evidence supports the effectiveness of airway clearance techniques, antibiotics and mucolytic agents. Enhancing effective expectoration of stagnated bronchopulmonary secretions, usually with physiotherapy support, is key to management. There are different methods for delivering chest physiotherapy, such as the active cycle of breathing technique, postural drainage, (PEP) and oscillating PEP devices. The objective of the study is to compare the effects of PEP & Incentive spirometry techniques on bronchiolectasis patients. The study will be a randomized clinical trial. Total 24 subjects will be assigned randomly into two groups by using convenient sampling technique. Baseline treatment will be same (chest physiotherapy) in both groups. Group A will use PEP and Group B will use incentive spirometry technique for total 60 repetitions (15 repetitions 2 sets, two times per a day) 5 sessions per week and total 4 weeks. Dyspnea severity index and cough & sputum assessment questionnaire (CASA-Q) would be used as an outcome measurement tools. Measurements will be taken at Baseline, and at the end of the 4 weeks treatment session. After assessing the normality, data will be analyzed by using parametric and non-parametric tests.