View clinical trials related to Acute Exacerbation of COPD.
Filter by:Purpose of research:to explore a reasonable programmed withdrawal process of noninvasive ventilation and thereby reduce the duration of noninvasive mechanical ventilation in patients with acute exacerbations of chronic obstructive pulmonary disease.
Chronic obstructive pulmonary disease (COPD) is highly prevalent and frequently punctuated by severe acute exacerbations (AECOPD), defined as a temporary worsening of symptoms which leads to hospitalisation. AECOPD result in physical inactivity, muscle weakness and decreased exercise capacity, which impacts negatively on patients' health status, and increases patients' susceptibility for new exacerbations and death. To date, light aerobic exercises, such as early mobilisation and low-intensity ambulation, have become part of standard of care during severe AECOPD. Nevertheless, additional strength training using neuromuscular electrical stimulation and functional exercises, which have been shown to prevent skeletal muscle dysfunction whilst inducing minimal stress in the ventilatory system, might be of added value to optimize patients' functional performance and symptoms during activities at discharge. Therefore, this randomized controlled trial aims to evaluate the effectiveness of additional functional strength training and neuromuscular electrical stimulation on top of standard of care during hospitalisation for an AECOPD to enhance functional performance, symptoms of dyspnoea and fatigue during activities, and readmission rate.
COPD is a common chronic disease. Its natural course is characterized by Acute exacerbations (AE). This may require hospitalization or even ICU/RESUSCITATION admission. The most common causes are respiratory distress with hypercapnic acidosis that requires mechanical ventilation (Invasive or non-invasive). Lower respiratory tract infections, bacteria and/or viruses are the main pathogenic factors of AE. The treatment of AECOPD is initially symptomatic treatment, combining bronchodilators, ventilatory support (oxygen therapy and/or mechanical ventilation) and respiratory physiotherapy. Systemic corticosteroid therapy is optional. When i) the sputum is purulent and ii) increased dyspnea and / or an increase in sputum volume is observed, antibiotic treatment is recommended for hospitalized patients. Antibiotic therapy is routinely recommended when mechanical ventilation is required. During ICU/RESUSCITATION AECOPD, more than 85% of patients received antibiotic therapy, with a median duration of 8 to 9 days, and the benefit of antibiotic therapy is likely to be limited to infected patients. Suspected or documented lower respiratory tract bacteria, that is, 25% to 50% of patients. This will lead to overuse of antibiotics, which is a problem for patients and the community. A personalized antibiotic strategy could limit this phenomenon, relying on multimodal methods, using aspect of sputum (clinical method), procalcitonin (PCT) (biological method) and the FilmArray ™ Pneumonia Panel extended panel multiplex respiratory PCR Plus (mPCR FA-PPP) (Biomérieux®) (microbiological approach). The hypothesis of this study is that sputum appearance, procalcitonin (PCT) and the FilmArray ™ Pneumonia Panel Plus expanded panel multiplex respiratory PCR (mPCR FA-PPP) (Biomérieux®) could be used in combination , and their results integrated into a decision-making algorithm aimed at personalizing antibiotic therapy and guiding its early termination in patients admitted to ICU/RESUSCITATION due to acute exacerbation of chronic obstructive pulmonary disease (AECOPD) to the main benefit of antibiotic savings, and without additional risk to patient safety.
This investigator-initiated, prospective, single center, randomized, controlled clinical trial enrolled patients with stable Global Initiative for Chronic Obstructive Lung Disease stage II-IV chronic obstruction pulmonary disease. The primary outcome was 2-year acute exacerbation rates.
Chronic lung conditions such as smoking related lung damage lead to breathing fail. This results in accumulation of gases such as carbon-di-oxide in the body especially during periods of illness known as exacerbation. Current management of carbon-di-oxide accumulation is administration of oxygen, nebulisers, antibiotics etc and if necessary, provide a tight fitting mask around the face to provide breathing support. If this fails, then a patient is placed on a mechanical ventilator. The tight fitting mask therapy is also called non-invasive ventilation and is used widely but patients acceptability of the therapy is limited. Providing a high flow of air with some oxygen could potentially provide the same benefit of the non-invasive ventilation and may also be better accepted by patients. Currently the knowledge and evidence from studies suggest a beneficial role for this high flow therapy but this has not been investigated in well designed studies. In the proposed study we aim to investigate whether use of the high flow therapy reduces the need for non-invasive ventilation in patients who present with a recent onset accumulation of carbon-di-oxide in their body due to long-term lung disease. If this shows benefit, it will lead to a bigger trial with patient benefiting by reduction in the non-invasive ventilation or indeed a need for an invasive breathing machine.
This trial will investigate whether patiens admitted with an acute exacerbation of chronic obstructive lung disease and pulmonary hypertension will benefit from a targeted pharmacological treatment.
This is a randomised controlled trial of the blood flow restriction resistance exercise (BFR-RE) for early rehabilitation of chronic obstructive pulmonary disease acute exacerbation (COPDAE) in the Haven of Hope Hospital. BFR-RE was invented by Dr. Yoshiaki Sato in Japan 40 years ago. This exercise was newly introduced to the Physiotherapy Department of Haven of Hope Hospital in March, 2020 and not a routine common training in Hospital Authority. However, currently the "BFR-device" is in its 3rd generation. Under the guidance of a certified physiotherapist, a "low load intensity" can be used for resistance training to build up muscle mass and strength by applying the device over the thigh to partially limit the blood flow to the distal limb. BFR-RE is well studied in athletes, elderlies and patients for rehabilitation after orthopaedics surgeries. A large amount of literature reveals BFR-RE with "low load intensity" shows comparable increase of muscle mass as "high load intensity" resistance training and more increase of muscle strength than those only undergoing "low load intensity" resistance training. The objective of this study is to investigate the additional effects of 2-week BFR-RE in patients with COPDAE on top of the conventional in-patient rehabilitation training. The primary outcome is effect on localized muscle strength. The secondary outcomes include mobility function, systemic muscle strength as reflected by handgrip strength(HGS), health related quality of life, unplanned readmission to acute hospital rate within 1 month for COPDAE.
Observational study in patients with chronic respiratory diseases (chronic obstructive pulmonary diseases, bronchiectasis, interstitial lung diseases, neuromuscular diseases, obesity-hypoventilation syndrome...) admitted in intensive care unit for acute respiratory failure. The main objective is to determine the prevalence of right ventricular (RV) dysfunction in this population and to analyze the impact of such a complication on outcomes (survival at day-28, duration of non-invasive or mechanical ventilation, duration of hospital stay). RV function will be assessed by echocardiography at admission, after 3 days and at discharge. Plasma NT-proBNP and troponin levels will be collected.