View clinical trials related to Respiratory Aspiration.
Filter by:Introduction: Nowadays, the reduction of perceived stress and the improvement of sleep quality are considered fundamental aspects in the quality of life of both healthy subjects and patients with disease. Stress has become a pandemic in recent years due to the socio-labor demands faced by society. On the other hand, it has a direct relationship with the quality of sleep, its influence being bidirectional. In this regard, several tools have been reported for the management of these conditions. These include strategies such as yoga, mindfulness, diaphragmatic breathing (DR) or Pilates. On the other hand, other proposals such as global postural reeducation (GPR) lack evidence in the management of these conditions. Objectives: Compare the effects of a diaphragmatic breathing self-management program with global postural reeducation on stress and sleep quality in university students. Method: The study will be carried out with physiotherapy students of the University Francisco de Vitoria. The participants will be randomly divided into three groups: GPR group, DR group and control group. Perceived stress (Perceived Stress Scale - PSS14) and reported sleep quality (Pittsburgh Sleep Quality Index - PSQI) will be measured three times throughout the study: pre-intervention, 3 weeks after the start of the intervention and post-intervention. The intervention will last 6 weeks, during which time all participants will be required to complete the 5 Grade Scale (5GS) each morning. The GPR group will perform; Frog to the ground posture, while the DR group will follow a set breathing protocol at a 4/6 rhythm. Both GPR and DR will be performed 10 minutes before going to sleep. Ethical considerations: The principles of the 1964 Declaration of Helsinki will be followed. The proposed interventions are non-invasive, based on the combination of mild physical activity tools, body awareness and relaxation techniques. The dependent variables to be measured are based on clinimetric aspects, without any harm to the participants. Subjects will be asked to participate on a voluntary basis and may withdraw from the study at any time.
The use of self-administered mindfulness interventions has increased in recent years. The effectiveness of these interventions on regulating stress/emotions, however, is debated. In the present multi-site study (Nsites = x, Nparticipants = x), the investigators aimed to investigate the effectiveness of four single, brief stand-alone mindfulness exercises in a population unfamiliar with mindfulness meditation. The investigators tested these four interventions in comparison to non-mindful active control conditions using an adaptive Bayesian design. The investigators found [evidence for the efficacy of x exercises/no evidence for the efficacy of x exercises] with an estimated mean effect size of [xx/xx]. This means that… or The investigators recommend that… [recommendation will be provided].
It is a prospective randomized controlled trial. In this project, it is aimed to examine the effect of telerehabilitation-based instrumental and noninstrumental respiratory exercise program on lung capacities. For this reason; - Contributing to the literature by comparing the effect of breathing exercises with and without instruments on lung capacities, - It is aimed to be a resource for the effective use of respiratory exercise, which has a high effect on lung capacities, in treatment. In addition, with the data obtained, it is aimed to decide and apply the exercise that is more effective in the treatment of respiratory diseases quickly. Socio-demographic data will be questioned by using the Demographic Data Form; participants, age, gender, height, weight, marital status, smoking and alcohol use, presence of disease, whether they are included in a different exercise program, dyspnea, severe nausea and vomiting. The cases will be randomized into two groups: non-instrumented breathing exercises group and instrumented breathing exercises group. The physical activity status of the individuals participating in the study will be questioned using the International Physical Activity Questionnaire-Short Form (IPAQ-SF) at the beginning and end of the study. Pulmonary Function Test (PFT) will be used to measure the lung capacity of the participants. Instrumented breathing exercises will be performed for 8 weeks, 2 days a week with the telerehabilitation program, 3 days a week as a home program, 5 days a week in total, starting with 1 set of 15 repetitions and the program will progress with progression. Diaphragmatic breathing and thoracic extension exercises will be applied as non-instrumented breathing exercises. For 8 weeks, 2 days a week with telerehabilitation method, 3 days a week as a home program, 5 days a week in total, 1 set of 10 repetitions for each exercise and the program will progress with progression. At the end of 8 weeks, all evaluations of the participants in both groups will be repeated.
The purpose of this study is to conduct a Breathing Rate and Pulse Rate accuracy validation comparing the NuraLogix AMC-SDK to the Reference devices, an FDA cleared End Tidal Carbon Dioxide monitor (GE Datex-Ohmeda) and a standard ECG (GE Datex-Ohmeda) derived heart rate reference. This will be done by manually scoring the collected waveform for data analysis.
Diagnostic investigations in paediatric respiratory and sleep medicine are often challenging due to patient size (due to prematurity), tolerability, and compliance with "gold standard equipment". Children with sensory/behavioural issues, at increased risk of sleep disordered breathing (SDB), often find tolerating standard diagnostic equipment difficult. There is a need to develop non-invasive, wireless, devices designed for the paediatric population. Devices must address health in-equalities as high-risk children, with low birth weights, genetic syndromes, or complex neuro-disabilities, are often unable to undergo current investigations, particularly in sleep medicine. Prompt and accurate diagnosis of SDB is important to facilitate early intervention and improve outcomes Infants in the neonatal period can have immature breathing control which manifests as excessive central breathing pauses, apnoea's, whilst asleep requiring oxygen therapy. There is also a risk to newborn term infants of sudden unexpected neonatal collapse, even in "low risk" babies. Diagnosis of breathing issues in babies can be challenging since babies are often too small for standard monitoring equipment. Effective monitoring and appropriate treatment of apnoea's has been shown to improve prognosis in terms of 5-year mortality and neurodevelopmental outcomes. This observational study is part of a phased clinical program of research that aims to validate a small wearable biosensor developed by PneumoWave Ltd in a paediatric clinical setting with the overall primary endpoints of monitoring and assessing respiratory pattern as an aid to sleep diagnostics, and as a device to monitor apnoea in neonatal patients.
Sedatives and analgesics are usually given for analgesic, anxiolytic, or sedating purposes for patients with critical illness, while they inevitably inhibit respiratory and circulatory function. Sometimes, patients receive deep sedation to induce hypoventilation or suppress spontaneous respiratory effort. The sedation level in clinical practice is usually assessed with subjective sedation scoring systems, such as the Richmond Agitation Sedation Scale (RASS). However, studies have found that sedation depth based on RASS is not a reliable marker of respiratory drive during critical illness. In recent years, researchers have proposed to monitor the effects of sedatives and analgesics on respiratory indicators and to implement lung-protective sedation, such as P0.1, Pocc, Pmus, WOB, and PTP. However, different pharmacological characteristics, different depths of sedation, and different sedation regimens among different sedatives and analgesics make a great difference in their effects on respiration. Ciprofol is an analog of propofol, with increased stereoselective effects adding to its anesthetic properties, is increasingly used in the intensive care unit, but its effects on respiration are not well understood. Therefore, this study aims to investigate the effects of ciprofol on respiratory patterns, respiratory drive, and inspiratory effort in mechanically ventilated patients.
In obese individuals, increased adipose tissue and systemic inflammation play a key role in the development of cardiometabolic diseases, pulmonary system dysfunction, and many respiratory diseases. Existing research has demonstrated beneficial clinical outcomes of inspiratory muscle training or combined aerobic and resistance exercise training in obese individuals. However, this focused on the isolated effects of exercise on obesity. In the current literature, no study is evaluating the effectiveness of functional inspiratory muscle training in obese individuals. This study aims to investigate the effects of functional inspiratory muscle training on body composition, cardiometabolic markers, functional capacity, respiratory function, respiratory muscle strength, and respiratory muscle performance in obese individuals.
The purpose of this study to evaluate the correlation between children and parental dental anxiety as well as to evaluate the effectiveness of breathing exercises on anxiety reduction.
Postoperative sleep disorders have serious problems with cognition, pain perception, sustained circadian rhythm, psychomotor function, metabolic function, catabolic responses, and continuity. The relationship between general anesthesia and sleep disturbances following surgery is still unclear. Since the risk of sleep disorders after surgery is high, it is important to determine the efficiency of the interval with automatic sleep disorders. By evaluating how major orthopedic surgery and general anesthesia applied to posterior spinal instrumentation divides sleep quality, risk management allows determining the factors involved in the peroperative period and thus facilitating surgical results and patient comfort.
This is a cross-sectional study to determine the optimal inspiratory muscle training (IMT) intensity for stroke survivors. Participants will breathe through a pressure threshold inspiratory loading device with varying loads in random order. Each IMT intensity protocol consists of 10 breaths. During the test, accessory inspiratory muscle activity will be measured with surface electromyography (sEMG) and diaphragm thickness will be used to assessed with ultrasonography. Repeated-measures ANOVA will be used for statistical analysis to determine the most effective training intensity for future study.