View clinical trials related to Respiration Disorders.
Filter by:Metabolic syndrome (MetS) or syndrome X, which is increasingly prevalent in the world and in our country, is a disease that includes abdominal obesity, dyslipidaemia, impaired glycaemic control and hypertension components. It causes cardiovascular events such as myocardial hypertrophy, left ventricular diastolic dysfunction, atrial dilatation and atrial fibrillation. Low physical activity level may be caused by various factors such as environmental and genetic factors, age, race, sarcopenia, poor eating habits, postmenopausal period and smoking history. It has been reported that factors such as genetic differences, diet, physical activity, age, gender and eating habits affect the prevalence of (MetS) and its components. Metabolic syndrome is a fatal endocrinopathy that starts with insulin resistance and is accompanied by systemic disorders such as abdominal obesity, glucose intolerance or diabetes mellitus, dyslipidaemia, hypertension and coronary artery disease (CAD). Although the prevalence of metabolic syndrome, which is accepted as an important public health problem in both developed and developing countries, varies according to different geographical and ethnic characteristics, definitions used, age and gender characteristics of populations, it shows a global increase and is considered as a pandemic affecting 20% to 30% of the adult population in many countries. The likelihood of metabolic syndrome increases in geriatric individuals due to some changes caused by aging. In a study conducted in geriatric individuals in our country, the incidence of metabolic syndrome was reported as 36.0%. As a result of ageing, degenerative changes in the central and peripheral vestibular system have been found. With age, the ability to regulate movement is impaired as a result of insufficient information in any of the sensory receptors or any disorder affecting the processing of these messages. This directly affects functional capacity. In elderly individuals, tolerance to physical effort decreases due to a decrease in maximal oxygen consumption and maximal heart rate. Systolic and diastolic blood pressure increases. The number of respirations per minute increases in the elderly due to the difficulty in chest cage adaptation.Aging causes a decrease in the elasticity of the lung. The respiratory surface area, which is up to 75 square metres (m²) in young adults (due to damage to the inter-alveolar septum during aging), decreases by approximately 3 m² per decade. Systematic changes seen with aging also have negative effects on functional status and exercise endurance. In sarcopenia, which is defined as a decrease in muscle mass and strength with advancing age, there is an irreversible decrease in the number of muscle fibres and myofibrils contained in each muscle fibre. From the age of 20 years to 70 years, approximately 40% loss in muscle mass and 30-50% decrease in muscle strength occur. It is stated that this loss starts at the age of 25, but muscle mass and muscle strength are lost at a rate of 1% per year from the age of 50. In geriatric rehabilitation, patients' functionality, balance and fall problems have an important place. On the other hand, cardiac risk is increased in geriatric individuals and respiratory assessments have an important place. Metabolic syndrome is 7 times more common in individuals with maximal oxygen consumption (VO2 max) below 29 mL-kg-1 -min-1 than in those with VO2 max above 35.5 mL-kg-1 -min-1. Metabolic syndrome directly affects the pulmonary system. In the light of the results obtained from the studies in the literature, degenerative changes are observed in many systems in geriatric individuals and while the incidence of metabolic syndrome in these individuals is high, the number of studies evaluating their effects is not sufficient. Based on these deficiencies, it is aimed to reveal the effects of respiratory muscle strength, pulmonary function, exercise endurance and functional level in geriatric individuals with metabolic syndrome.
The goal of this clinical trial is to explore The Effect of Active Breathing Exercises in Stroke Patients With Respiratory Rhythm Disorder. Patients will be randomly divided into an observation group and a control group, all receiving routine rehabilitation treatment. On this basis, the observation group will be given Active Breathing Exercises. Researchers will compare dysphagia of two groups.
The purpose of this observational trial is to advance digital health monitoring through the analysis of Photoplethysmography (PPG) waveforms collected via RE.DOCTOR Vitals software. The study aims to collect a diverse and extensive dataset of PPG waveforms, alongside traditional physiological measurements, for the purpose of enhancing existing algorithms and machine learning models used in health monitoring. The primary focus is on improving the accuracy and reliability of algorithms in interpreting PPG data to derive meaningful insights into physiological parameters. The main questions it aims to answer are: - How can extensive datasets of PPG waveforms be utilized to enhance existing algorithms and machine learning models? - How do correlations between PPG waveforms and key physiological parameters (such as glucose levels, blood pressure, heart rate, respiration rate) contribute to refining algorithms for more accurate and reliable health predictions? Participants will be asked to: - Continuously monitor their health using smartphone applications. - Allow the collection of PPG waveforms in diverse settings. - Engage in tasks related to monitor health parameters using medically approved devices
The purpose of this study is to evaluate the clinical efficacy and safety of dialectical treatment in the patients with CAP after discharge in a prospective cohort study: one is the Traditional Chinese Medicine (TCM) cohort, which has been evaluated and has certain effects; The other is a non traditional Chinese medicine queue.
This goal of the open-label single dose study is to evaluate and compare the safety, tolerability, pharmacokinetic (PK), and immunogenicity of AIO-001 using two different formulations in 16 healthy volunteers.
Obesity Hypoventilation Syndrome(OHS) is a disease characterized by daytime hypercapnia and sleep-disordered breathing without other causes of hypoventilation in individuals with a body mass index above 30 kg/m2. Sources state that obesity is at the basis of the metabolic changes seen in individuals with OHS. Obesity, together with cardiovascular system complications, lung volumes, work of breathing and sleep quality, creating the basis for respiratory problems. In addition, sedentary lifestyle habits, which are common in obese individuals, cause negative effects on exercise capacity and peripheral muscle strength. It has been shown in the literature that decreased exercise capacity due to obesity strongly interacts with the risk of all-cause mortality. As a result of obesity and all this negative picture, impaired emotional state and decreased quality of life are observed in individuals. Numerous studies have shown that obese individuals generally have a low level of physical activity, there is a decrease in peripheral muscle strength, obese individuals are at risk for sleep-related respiratory problems and health-related quality of life is often negatively affected in obese individuals. With these studies, the effects of obesity on individuals have been evaluated with objective evaluation methods. However, the same cannot be said for OHS. It is not clear how exercise capacity, peripheral muscle strength and quality of life parameters, which are known to be negatively affected by obesity, are affected in individuals with OHS. Based on this point, this study aims to investigate whether OHS has an additional effect on exercise capacity, peripheral muscle strength and quality of life in addition to obesity.
Obesity Hypoventilation Syndrome(OHS) is characterized by daytime hypercapnia and sleep-disordered breathing without other causes of hypoventilation in individuals with a body mass index above 30 kg/m2. It is stated that obesity is at the basis of the metabolic changes seen in individuals diagnosed with OHS. Also sedentary lifestyle habits, which are common in obese individuals, cause the risk of sarcopenia due to loss of muscle strength and mass, accumulation of adipose tissue in the body, and decreased exercise capacity. Reduced exercise capacity due to obesity has been shown in the literature to strongly interact with mortality risk. As a result of obesity and all this negative picture, impaired emotional state and decreased quality of life are observed in individuals. Simultaneously, sleep parameters are also negatively affected. In particular, increased adipose tissue leads to loss of muscle mass and strength, increased risk of sarcopenia and sleep-related problems. The association of obesity and sarcopenia is referred to as 'sarcopenic obesity'. Sarcopenic obesity is defined as the coexistence of sarcopenia and obesity. The concept of sarcopenic obesity has recently taken its place in the literature. In particular, there are very few studies on its relationship with sleep parameters. However, while obesity is the basis of OHS, there are no studies on the presence and effects of sarcopenic obesity in this patient group. Based on this point, we aim to investigate the effects of sarcopenic obesity on sleep parameters, exercise capacity and quality of life in individuals with OHS.
The aim of this study is to validate the six minute Stepper Test (6MST) and the 5-repetition chair lift test (5STS) as measures of exercise tolerance and muscle power, respectively, in patients with chronic respiratory disease. As the reproducibility of the tests has been studied and validated in previous studies, the objective is to investigate the validity of the 6MST and 5STS in comparison with their respective gold standards.
Background: Respiratory health problems are one of the main causes of morbidity and mortality in adult people with acquired brain injury (ABI). The influence of respiratory muscle training has not yet been studied in this population group. The objective of the study was to evaluate and compare the efficacy of two protocols with respiratory muscle training, inspiratory muscle training vs expiratory muscle training, to improve respiratory strength and pulmonary function in adults with CP. Methods: The study is a controlled, randomised, double-blind trial and with allocation concealment. 26 ABI patients will be recruited and randomly distributed in the inspiratory muscle training group (IMT) and the expiratory muscle training group (EMT). Over an 8-week period an IMT or EMT protocol was followed 5 days/week, 5 series of 1-minute with 1-minute rest between them. IMT trained with a load of 50% of the maximum inspiratory pressure (MIP) and EMT with 50% of the maximum expiratory pressure (MEP). Respiratory strength and pulmonary function were evaluated.
The BIRD biobank aims at collecting clinical and biological data from patients suffering from a chronic respiratory disease. The lung cancer subpopulation will be divided into two cohorts to identify biomarkers of cancer. One cohort will include patients with supra-centimetric lung nodule(s) whether surveillance, bronchoscopic or radio-guided biopsy or surgery is indicated, patients suspected of lung cancers requiring diagnostic and/or therapeutic bronchial endoscopy and patients with a known early stage lung cancer (early-stage cohort). The second cohort will include known advanced stage lung cancers (III-IV).