View clinical trials related to Dyspnea.
Filter by:An assessment of the effectiveness of Stellate Ganglion Block in alleviating symptoms of Long COVID-19.
Most research to date on bariatric surgery outcomes has been about metabolic syndrome, a disorder very effectively treated by bariatric surgery. However, obesity is also associated with many other problems that have received much less attention. Amongst the most troubling of these for patients is dyspnea. Dyspnea results in substantial patient distress that can greatly reduce health-related quality of life. Little is known about the relationship between dyspnea, weight loss, and bariatric surgery. Dyspnea is a complex symptom that may lead to adaptive responses, such as the need to rest as a consequence of even minimal activity or seeking medical attention. The main outcome of the study will be measured using a new state-of-the-science validated HRQOL measure, the Patient Reported Outcome Measuring Information System for Heart Failure (PROMIS+HF 27).
This intervention study aims to evaluate the before and after changes in physical fitness, cardiorespiratory status, exercise capacity, fatigue, anxiety, dyspnea, psychoemotional conditions, and quality of life through 3 sessions per week for 4-week of an intensive therapeutic program in post coronavirus survivors. In addition, it aims to answer the main questions before and after the clinical trial study. - Does three sessions per week for 4-week of an intensive therapeutic program improve patients' physical fitness, cardiorespiratory status, and exercise capacity? - Does it improve physical endurance and fitness, enhancing fatigue, anxiety, and dyspnea on post coronavirus patients? Participants will ask first to answer these questionnaires before and after the intervention. - Berg Balance Scale (BBS): to assess the patient's ability (or inability) to safely balance (standing, active, and fall risk) during a series of planned tasks. - The Modified Medical Research Council (mMRC) Dyspnea Scale: is used to assess patients' degree of baseline functional impairment due to dyspnea from respiratory diseases. - Depression, Anxiety, and Stress Scale- 21 Items (DASS-21): measures the emotional states of depression, anxiety, and stress. - Fatigue Assessment Scale (FAS): evaluates symptoms of chronic fatigue. - Quality of Life (QOL)-short form-36: to assess the quality of life and calculate eight subscales: physical functioning, role physical, bodily pain, general health, vitality, social functioning, role emotional, and mental health. After answering the questionnaires, the patients will then go through multiple tests before and after the intervention: - A 6-min walk test (6-MWT): is the primary measure of this study to assess aerobic capacity and endurance. - 10-meter walk test (10MWT): assess walking speed in meters per second over a short distance and assess capacity and endurance. - Time Up and Go (TUG) test: assess lower extremity function, mobility, and fall risk. The TUG test is the shortest, most straightforward clinical balance test available to predict the risk of falls. - 1-min sit-to-stand test (1-MSTST): assess lower extremity strength for one minute.
Dyspnea is a frequent reason for referral to emergency departments, leading to a 30-day mortality rate of up to 10% and a 3-month rehospitalization rate of over 30%. Multiple etiologies, as well as poor performance of clinical examination and chest radiography, lead to a diagnostic error rate of nearly 30% at the end of emergency department care. These diagnostic errors lead to rehospitalization and an excess mortality rate of more than 50% compared to patients with a correct initial diagnosis, which is explained in particular by the use of inappropriate therapies. Lung ultrasound is a rapid, non-irradiating, non-invasive, inexpensive, reproducible imaging test that can be used at the bedside. It has a better diagnostic performance than chest radiography, commonly performed in emergency departments.The immediate benefit of lung ultrasound for the most common diagnoses in emergency medicine has already been demonstrated. From an organizational point of view, a few studies have shown a benefit of lung ultrasound in reducing the time spent in emergency departments and the number of additional examinations necessary for the final diagnosis. However, there is no data in the literature on the longer term impact of its use in the emergency department. The primary objective is to evaluate the impact of performing lung ultrasound in terms of 3-month mortality and rehospitalization as part of the diagnostic process for patients admitted to the emergency department with dyspnea.
Menthol inhalation (MI) is a novel and promising treatment option for acute relief of dyspnea, however, the underlying ventilatory and/or neural related mechanisms for this relief in symptoms remain unknown. The overall aim of this research project is to systematically examine the mechanisms of dyspnea relief from MI in healthy individuals and those with COPD.
Dyspnea is a common diagnostic challenge in the Emergency Department (ED). Delay in diagnosis will increase time to correct treatment and could impact outcome. Previous studies have shown excellent diagnostic performance of point of care ultrasound (POCUS) to detect and differentiate between several important diagnosis (e.g heart failure and pneumonia) in patients with dyspnea. However, in most studies POCUS is performed by physicians highly experienced in ultrasound and often studies have focused only on one or few diagnoses. The aim of this study is to compare the diagnostic accuracy of different diagnosis in dyspnoeic patients before and after a ED physician with limited training applies POCUS.
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).
The former aim of this study is to determine whether the arm swings change in patients with Chronic Obstructive Pulmonary Disease (COPD) according to healthy subjects. The latter purposes to investigate the correlation between balance parameters and arm swing, how to change arm swing according to severity of the disease, and to determine the relationship between balance and the severity of disease, the relationship of posture both arm swing and severity of disease in patients with COPD. In accordance with this purposes, 20 patients with COPD who have Global Initiative for Chronic Obstruction Lung Disease (GOLD) stage 1-2-3 and 20 healthy controls will be included between the ages of 40 and 65, respectively. Tests and questionnaires will be used in order to determine the severity of COPD and to evaluate posture. Berg Balance Scale, Time Up and Go Test, 6 Minute Pegboard and Ring Test, 6 Minute Walk Test and gait analysis will be performed. It is expected that by determining the parameters that can be affected by severity of COPD. It is estimate to have information about severity of the disease by means of observational analysis. It will guide professional working in the field.
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.
Estimate the predictive value of POCUS in diagnosis of different causes of acute dyspnea in hemodialysis patients and compare between POCUS and CT in differentiation the causes of acute dyspnea in those population.