View clinical trials related to Dyspnea.
Filter by:To improve the safety of diagnosis and therapy for a set of conditions and undifferentiated symptoms for hospitalized patients, the investigators will employ a set of methods and tools from the disciplines of systems engineering, human factors, quality improvement,and data analytics to thoroughly analyze the problem, design and develop potential solutions that leverage existing current technological infrastructure, and implement and evaluate the final interventions. The investigators will engage the interdisciplinary care team and patient (or their caregivers) to ensure treatment trajectories match the anticipated course for working diagnoses (or symptoms), and whether they are in line with patient and clinician expectations. The investigators will use an Interrupted time series (ITS) design to assess impact on diagnostic errors that lead to patient harm. The investigators will perform quantitative and qualitative evaluations using implementation science principles to understand if the interventions worked, and why or why not.
The general aim of this study is to estimate the rate of disease progression for adults testing positive for SARS-CoV-2. The primary endpoint for this study and the basis for sample size is hospitalization or death during the 28 day follow-up period. In some locations special facilities are being built/utilized for quarantine/public health reasons for those who are SARS-CoV-2 positive. Hospitalization is defined as a stay for at least 18 hours, irrespective of reason, at a hospital or one of these special facilities after study enrollment. Secondary outcomes include participant-reported health status and change in severity of dyspnoea.
This was a randomized, multi-center, open-label clinical trial. Eligible patients were recruited from seven hospitals in China. On the basis of standard-of-care, patients in treatment group inhaled H2-O2 (66% hydrogen; 33% oxygen) at 3 L/min via nasal cannula by using the Hydrogen/Oxygen Generator (model AMS-H-03, Shanghai Asclepius Meditech Co., Ltd., China) until discharge. Patients in control group received standard-of-care (consisting of oxygen therapy) alone until discharge.
Chronic Obstructive Pulmonary Disease (COPD) is associated with high morbidity and mortality. The Danish Lung Association estimates that 320,000 Danes live with COPD, of which approximately 50,000 with severe COPD. In 2017, records showed that 23,979 admissions in Denmark were related to COPD; of these patients, about 20% were readmitted 2-30 days after discharge. The main symptom is dyspnea, which is often accompanied by anxiety. Primary treatment is; oxygen, bronchiolitis, prednisolone, morfin, NIV, and anxiolytics. Researchers at Hvidovre Hospital have developed an oxygen robot that continuously monitors the patient's SaO2 (oxygen saturation) and automatically administrates the oxygen depending on it. The preliminary results show that patients with robot-administrated oxygen were within defined SaO2 range in 85.7% of the time versus 46.6% when oxygen was nurse-administrated. The research was conducted as a multicentre Randomized Controlled Trial (RCT)focusing on physiological end-points. There is a lack of knowledge about the patient perspective of treatment with the oxygen robot. The purpose of this study is: 1. To examine the association between robot-administered oxygen and patients' perception of dyspnoea, including the emotional response in the form of anxiety and depression The perspective is to be able to provide a holistic response to whether robot administered oxygen can be a better method of treating and alleviating dyspnoea.
The purpose of this study is to evaluate the effectiveness of two different ways to teach hospitalized children how to use a metered dose inhaler and to follow-up after discharge home from the hospital to determine durability of the education.
Chronic Obstructive Pulmonary Disease (COPD) is associated with high morbidity and mortality. The Danish Lung Association estimates that 320,000 Danes live with COPD, of which approximately 50,000 with severe COPD. In 2017, records showed that 23,979 admissions in Denmark were related to COPD; of these patients, about 20% were readmitted 2-30 days after discharge. The main symptom is dyspnea, which is often accompanied by anxiety. Primary treatment is; oxygen, bronchiolitis, prednisolone, morfica, NIV, and anxiolytics. Researchers at Hvidovre Hospital have developed an oxygen robot that continuously monitors the patient's SaO2 (oxygen saturation) and automatically administrates the oxygen depending on it. The preliminary results show that patients with robot-administrated oxygen were within defined SaO2 range in 85.7% of the time versus 46.6% when oxygen was nurse-administrated. The research was conducted as a multicentre Randomized Controlled Trial focusing on physiological end-points. There is a lack of knowledge about the patient perspective of treatment with the oxygen robot. The purpose of this study is: 1. To examine the effect of robot-administered oxygen on patients' perception of dyspnoea, including the emotional response in the form of anxiety and depression The perspective is to be able to provide a holistic response to whether robot-administered oxygen can be a better method of treating and alleviating dyspnoea.
This study evaluates a pharmacological intervention to relieve dyspnea in intensive care unit patients. Indeed, opioids can be particularly beneficial since 1) dyspnea and pain share many similarities, 2) the benefit of opioids on dyspnea has been clearly demonstrated in other populations. However, to date, data regarding the impact of morphine on dyspnea in intensive care unit patients admitted for acute respiratory failure are scarce. There may be a reluctance of physicians to prescribe opioids that is not scientifically justified. The study will focus on patient reported outcome (PRO) criteria. The ultimate goal of this pilot study is to design the protocol of a future pragmatic trial.
The Dyspnea-ALS-Scale (DALS-15) is a uni-dimensional scale to measure dyspnea in patients with Amyotrophic Lateral Sclerosis. It can be easily and rapidly applied. The aim of this study is to investigate reliability and validity of Turkish version of the DALS-15.
Transfusion reactions are defined as harms occurring during or after blood transfusion, with new heart/lung stress (eg. troubled breathing) regarded as cardiorespiratory transfusion reactions (CRTRs). CRTRs are among the most important, as the leading cause of transfusion-related harm and death. Though there are distinct classifications for these events, real life cases often don't fall neatly into a given category, with outliers regarded as "transfusion associated dyspnea (TAD)". It is unknown what TAD is -- whether it has a unique root cause, is a milder version of other known CRTRs, or is a blend of events. The purpose of this study is to better understand TAD and CRTRs by profiling them through a detailed medical history and more intensive laboratory assessment. This review of CRTRs may improve the quality/validity of final conclusions reported in the health record and to hemovigilance bodies, and uncover the nature of TAD and/or minimize CRTRs defaulting to the TAD category. Our enhanced understanding will advance diagnostic, treatment, and prevention efforts.
Recurrent fluid surrounding the lungs is associated with poor quality of life, the main symptom being dyspnea. These patients are in need of recurrent removal of the fluid using drainage. The mechanism causing dyspnea is not fully understood. By using ultrasound to evaluate the movement of the diaphragm before and after removal of fluid and the patients symptoms before removal of fluid and until next removal the research group aims to clarify the temporal development in symptoms and the role of the diaphragm. The researchers will also evaluate the ability of the pulmonologist and patient to predict when the patient will need the next removal of fluid in patients with recurrent unilateral pleural effusion.