View clinical trials related to Dyspnea.
Filter by:Background: Dyspnea, like pain, is subjective and challenging to assess despite the large number of patients that report shortness of breath. Several studies have shown that physicians and nurses inaccurately assess patient dyspnea. Since respiratory therapists care for many patients at risk for dyspnea, an evaluation of their abilities to evaluate dyspnea is needed. Thus, the plan is to evaluate respiratory therapists' ability to assess a patient's dyspnea level, in addition to nurses and physicians. Methods: This is a prospective study to evaluate the agreement between dyspnea assessment by a patient and respiratory therapist, nurses, and physicians. The primary aim of this study will be to evaluate clinician ability to assess a patients dyspnea level. The secondary aim of this study is to identify patient characteristics that might influence clinician ability to assess dyspnea.
The main purpose of this study is to evaluate the effects of automated oxygen administration (FreeO2 system) alone or with high-flow oxygen on dyspnea and exercise tolerance in people with desaturating chronic lung disease compared to fixed oxygen therapy.
Most patients with acute COVID-19 (Coronavirus 19) recover within weeks, however a significant number of individuals will develop the post-acute COVID 19 syndrome (PASC). As of July 2021, the post COVID syndrome qualifies as a disability under the Americans with Disabilities Act. The symptoms which comprise this condition are highly variable and often extraordinarily debilitating. They may be distinct from the initial presentation or may mimic those which defined the initial infection. The post COVID syndrome can be diagnosed when symptoms persist longer than 3 months and may extend to beyond one year. There are risks for permanent levels of disability. Patients who seemingly did not have active COVID-19 symptoms in the days following infectious exposure may also develop post Covid syndromes. These syndromes are considered to constitute a distinct clinical entity which has of yet no clearly defined pathogenic mechanism or validated treatment algorithms. International investigative efforts are now underway to determine who might develop the post COVID syndrome, it's long term consequences and how best to treat its many problematic symptoms.
This study will evaluate the ability of a new High Velocity Nasal Insufflation [HVNI] device design to effect ventilation and related physiological responses relative to the current HVNI device design.
Brief Summary: SARS-CoV-2 virus infection is known to cause Lung Injury that begins as dyspnea and exercise intolerance, but may rapidly progress to Critical COVID-19 with Respiratory Failure and the need for noninvasive or mechanical ventilation. Mortality rates as high as 80% have been reported among those who require mechanical ventilation, despite best available intensive care. Patients with severe COVID-19 by FDA definition who have not developed respiratory failure be treated with nebulized ZYESAMI™ (aviptadil acetate, a synthetic version of Vasoactive Intestinal Polypeptide (VIP)) 100 μg 3x daily plus Standard of Care vs. placebo + Standard of Care using an FDA 501(k) cleared mesh nebulizer. The primary outcome will be progression in severity of COVID-19 (i.e. critical OR severe progressing to critical) over 28 days. Secondary outcomes will include blood oxygenation as measured by pulse oximetry, dyspnea, exercise tolerance, and levels of TNFα IL-6 and other cytokines.
Breathlessness is a symptom of asthma that occurs in relation with lower airway obstruction. However, this sensation is not specific of asthma and may be the expression of other disorders. In particular, it can testify to anxiety or hyperventilation, two disorders frequently associated with asthma. The systematic interpretation of dyspnea as a manifestation of asthma in asthmatic patients may lead to an inappropriate increase in asthma controllers. Identifying the cause of dyspnea in asthmatic patients (airway obstruction, anxiety or hyperventilation) is therefore crucial for the clinician. This could be facilitated by a multidimensional assessment of dyspnea, evaluating the kind of sensation felt by the patient (for example chest tightness, air hunger etc.) and emotions associated to respiratory sensations (for example anxiety, fear etc.). The objectives of this project are to assess: (1) the sensory and affective dimensions of dyspnea in asthma and, (2) their connection to asthma control, anxiety and depression.
Patients being treated with non-invasive home mechanical ventilation (NIV) may experience morning dyspnea after each night of NIV use, when the therapy is abruptly ended. This study aims to show that dyspnea intensity can be significantly reduced by a gentle NIV therapy end, delivered by a continuously decreasing pressure level (inverse pressure ramp) after therapy end in the morning, a feature called softSTOPP, which can configured in prismaVENT NIV devices. This could also improve therapy adherence.
The aim of this study is to utilize lung ultrasound to detect the development of extravascular lung water in patients undergoing clinically indicated invasive hemodynamic exercise stress testing for symptomatic shortness of breath. The study will correlate the lung ultrasound findings with cardiac hemodynamics and measurements of extravascular lung water in an effort to better understand the pathophysiology of exertional dyspnea.
The objective of this study is to evaluate Lung Doppler signals (LDS) among patients presenting to the emergency department with acute dyspnea, in order to determine the diagnostic value of this non-invasive method to discriminate ADHF causing dyspnea from any other cause i.e., non-ADHF causes of dyspnea.
Study to assess the possible effects of the use of a point-of-care thoracic ultrasound protocol for hospital medical emergency teams (MET)