View clinical trials related to Copd Exacerbation Acute.
Filter by:The proposed study will explore whether remote monitoring of a COPD patient can be undertaken using a wearable medical device.
The proposed study will explore whether remote monitoring of a COPD patient can be undertaken using a wearable medical device.
COPD is a heterogeneous condition caused by airway (bronchitis/bronchiolitis) or alveolar (emphysema) abnormality, changes with chronic respiratory changes (dyspnea, dyspnoea, phlegm). It is characterized by persistent and frequently progressive airway obstruction. In COPD, which progresses with high mortality, non-pharmacological treatments are applied, as well as pharmacological treatments. They have an essential place in slowing down the progressive course of this treatment. However, despite the treatment administered to COPD patients, outdoor weather conditions, improper use of inhaler treatments, or comorbidities may cause acute exacerbation of COPD. Dry air nebulizer devices use dry air from the central system in hospitals. This system, which converts bronchodilator drugs into nebulizers by creating high currents, works like classical nebulizers without an electrical system and can have a higher flow rate than jet nebulizer devices. This procedure, which can be applied to COPD patients without giving high-flow oxygen, prevents carbon dioxide retention. There is no study in the literature comparing the bronchodilator effectiveness of dry air, classical nebulizer, and jet nebulizer, and the investigators aimed to compare the efficacy of these three treatment modalities in our study.
The goal of this clinical trial is to test titrated oxygen in prehospital patients with suspected acute exacerbation of chronic obstructive pulmonary disease (AECOPD) treated with inhaled bronchodilators. The main question it aims to answer is: - To determine whether prehospital titrated oxygen strategy in patients with suspected AECOPD will decrease 30-day mortality compared to patients receiving standard care. Participants in the intervention will receive titrated oxygen - a mix of supplemental oxygen and compressed atmospheric air as driver for inhaled bronchodilators to target SpO2 (oxygen saturation) 88-92%. The intervention will be compared to standard treatment, using compressed oxygen (100%) as driver for inhaled bronchodilators.
The study will systematically evaluate how an emergency manual-a collection of checklists and fact sheets-affects the performance of resuscitation teams during the management of priority one patients in an emergency department.