View clinical trials related to Chronic Obstructive Pulmonary Disease.
Filter by:This is a randomized, blinded, controlled clinical trial for mexican COPD patients. Biomass smoke associated COPD (BS-COPD) clinical spectrum is different to the one seen in tobacco smoke associated COPD (TS-COPD). BS-COPD patients present COPD-asthma phenotype or asthma-COPD overlap syndrome (ACOS), TS-COPD patients present mostly the emphysema phenotype. BS-COPD patients have a greater risk of exacerbations in comparison to the emphysema phenotype. Therefore, individualizing treatment in both phenotypes may be very useful among the clinical practitioners. The investigators expect treatment with FF/V to be superior in preventing COPD exacerbations than the U/V combination in patients with COPD-asthma phenotype; andU/V to be superior than FF/V in patients with the emphysema phenotype. The general objective of the study is to determine the exacerbations outcome in patients with COPD-asthma vs emphysema phenotype patients, treated with both drugs. Secondary objectives include assessment of pulmonary function tests, quality of life, dyspnea and functional capacity change after a 24 weeks treatment.
Scoring systems (SOFA, APACHE-II etc.) are used to estimate the mortality rates of patients treated in the intensive care unit. . In the scoring systems used, the disfunction level of the organs of the patients is measured. Blood gas analysis is routinely performed in patients whom intubated in the intensive care unit and receiving mechanical ventilation support, and the patient's treatment is optimized according to the results of the examination. The patient's mechanical ventilation settings are regulated by analyzing the Partial Arterial Carbondioxide (paCO2) value in the patient's blood gas result. The difference between the paCO2 value in the blood gas and the End-tidal Carbondioxide (EtCO2) value measured in the mechanical ventilator is 3-5mmHg in normal healthy people, while this difference is seen more in critical care patients. In critically ill patients in the intensive care unit, there is a greater increase in the difference between paCO2 and ETCO2 in cases where mortality is high, such as global perfusion disorder, shock situations, and massive pulmonary embolism, etc. In this study, it was planned to investigate the use of the difference between the paCO2 value in the blood gas taken from the patient and the ETCO2 value measured in the mechanical ventilator to predict the mortality rate of the patient.
The primary objective of this study is to assess the safety and effectiveness of Human Multigene Methylation Detection Kit (Fluorescent PCR Method) for help diagnose lung cancer by comparing with clinical standard method (includes chest CT examination or pathological examination).
According to the World Health Organization data, the third most common cause of death in the world, is COPD , a disease that progresses with exacerbations (1). Exacerbations are the most important cause of morbidity and mortality in COPD (2). It is thought that most exacerbations occur (3,4) because highly effective inhaler treatments are unavailable to prevent and treat respiratory symptoms (5,6). However, using inhaler devices correctly can be difficult (jama7,8). Guidelines recommend evaluating and teaching inhaler use technique (5,6). Unfortunately, these are often not implemented, especially in a hospital setting (9,10). Worldwide, 25 billion dollars are spent annually on inhaler drugs, 5-7 billion dollars of which is estimated to be wasted because of incorrect technique. Beyond this financial cost, incorrect inhaler technique is associated with worse symptom control, lower quality of life and increased acute care costs, (11,12,13). Although these shortcomings are known, appropriate educational interventions are unfortunately not been available. Additionally , patient's access to health services (especially face-to-face communication with recommended health providers) has been largely prevented due to the restrictions/requirements implemented against the pandemic in 2020,such as social isolation, staying away from public environments, and ensuring good personal and social hygiene. Considering that inhaler training is done face-to-face by doctors or allied health personnel today, many patients did not receive inhaler drug use training. One of the most realistic solutions that we encountered with this pandemic is telemedicine. The use of internet-mediated training, which is a part of telemedicine, has come to the foreground. In a recently published study on chronic airway diseases (asthma and COPD), it was revealed that video-mediated inhaler training is as successful as classical face-to-face training (14).Our aim is to investigate whether video-mediated virtual inhaler training is successful in patients with COPD.
Although high-intensity training (HIIT) is widely used in the rehabilitation of patients with chronic obstructive pulmonary disease (COPD), the optimal duration of intervals in terms of patient tolerability and fidelity is unknown.Thus, we will examine the fidelity and tolerability of the two most commonly used HIIT protocols, the classical so-called 4x4min vs. 10x1min in patients with moderate to severe COPD.
Chronic obstructive pulmonary disease (COPD) is one of the leading and rising causes of morbidity and mortality worldwide. The most important etiopathogenetic agent is smoking. However, air-pollution probably also plays a crucial role in the disease development, progression and exacerbations. The multimodal-telemedicine approach may provide a useful tool in the patient follow-up with the aim to reduce disease exacerbation rate and improve the health-related quality of life. The study aims to investigate the effects and utility of advanced telemonitoring in elderly COPD patients. All data will be integrated in a single web-based platform in order to analyse the mutual effects of different conditions and variables.
Sleep is a fundamental period in life. In a previous work, the investigators have shown that COPD patients presented on the EEG figures found in patients with chronic pain: Alpha-Delta. The link between dyspnea and pain is very strong and this Alpha-Delta could, in these COPD patients, be the witness of nocturnal dyspnea. Although it is not possible in a non-awake patient to evaluate reliably the dyspnea, sleep offers us a window on the emotions and the feeling of the patient: Dreams. A few studies have shown the link between breathing and dreaming, but none of them has focused on nocturnal dyspnea. Our working hypothesis is that respiratory abnormalities in COPD patients are responsible for nocturnal dyspnea, which is reflected in the content of these patients' dreams.
The purpose of the study is to investigate the effect of PBF-680 on the chronic inflammation and the lung function of patients with COPD on top of the standard medication. The effects of PBF-680 administration will also be examined with regards to symptom improvement and safety measures.One oral dose of PBF-680 or placebo will be administered daily for 4 weeks after randomization. The treatments will be administered double-blind with the Investigator and patient unaware of the treatment identity. A total of 102 COPD patients, either male or female, aged 40 to 80 years (inclusive) will be randomized.
The clinical objectives of this study are to determine whether utilization of the Wellinks COPD Solution can improve quality of life for patients with COPD, can reduce healthcare resource utilization over time, and can improve pulmonary function as measured by connected devices. The nonclinical objectives of this study are to describe the experience of patients using the Wellinks Solution through the assessment of patient engagement with the solution, as well as by patient-reported satisfaction with the solution and their perceived value (e.g., willingness to pay). Qualitative feedback on the features and functionality of the Wellinks Solution will be solicited.
This study is designed to determine the effects of diaphragmatic kinesiotaping (KT) facilitation technique on pulmonary function, functional capacity and forward head posture of chronic obstructive lung diseases (COPD) patients. The application of KT as an adjunct to conventional protocol in COPD patients if proven effective can enhance the symptom control in COPD patients for improving lung function, posture reducing the perception of dyspnea as well as improving functional capacity.