View clinical trials related to Respiratory Aspiration.
Filter by:The main objective of this study is to find the effects of breathing exercises on cardiorespiratory parameters in subjects with forward head posture. This will be a Randomized Clinical Trial study with two different breathing exercises which include Diaphragmatic Breathing Exercise (DBE) for Treatment group A individuals and Thoracic Extension Exercise (TEE) for Treatment Group B individuals will be performed along with ergometric advices. Each exercise session will be done three times per week for total over a period of 12 weeks. Outcomes will be measured at baseline, 6th and 12th week with photogrammetry method for craniovertebral angle (CVA) and spirometer for pulmonary function test values (PFTs).
Background/aim: Endothelial function is closely associated with coronary artery health among individuals being treated for heart disease. An impairment in endothelial function promotes arterial stiffening that directly contributes to elevated systolic blood pressure as a result of increased vascular resistance. Inspiratory muscle training is simply a form of training consisting of repeated inspirations against resistance. Inspiratory muscle training has also been applied to patients with chronic disease or as an additional therapy for cardiac rehabilitation and it has proven to be safe in these groups. Few studies in the literature examined the effects of high-intensity inspiratory muscle training in this population, however, these studies did not examine the direct effects of inspiratory muscle training on vascular function. To the best of our knowledge, the effects of inspiratory muscle training in patients with heart disease on endothelial function and arterial stiffness prior to starting cardiac rehabilitation have not been investigated. This study aims to investigate and interpret whether high-intensity inspiratory muscle training, beyond the usual care of heart disease, improves endothelial function and arterial stiffness. Methods: The study was designed as a randomized controlled trial. Patients will be allocated for inspiratory muscle training (IMT) with 60% of maximum inspiratory pressure (MIP) or sham inspiratory muscle training (Sham-control), for 4 weeks. In both groups, before and after 4-week training, cardiovascular functions will be measured and compared.
Stress plays a major role in the etiology and pathogenesis of anxiety and depression. Relaxation therapies, such as breathing exercises, can reduce stress and increase relaxation. This study has two aims. First, it aims to personalize and optimize breathing protocols. Second, it aims to tailor breathing protocols to subgroups based on prediction models of expected efficacy. Three different breathing protocols, varying solely in their instructed breathing frequency with 40 percent (A), 60 percent (B), and 80 percent (C) of the interindividual spontaneous breathing frequency, are tested in a randomized, counterbalanced crossover trial. Other parameters, such as breathing quality (i.e., nasal and diaphragmatic), rhythm (i.e., prolonged exhalation without instructed pauses) and depth (i.e., increased depth due to slower breathing frequency) as well as contextual factors (e.g., posture, video-based instructions, type of pacer, etc.) are invariant between protocols. First, this study hypothesizes a difference in the relaxation response between breathing protocols A, B, and C. This study looks at the relaxation response from three different angles (1) self-report, (2) autonomic arousal, and (3) central nervous system arousal. Second, this study explores prediction models of expected efficacy based on the interindividual variance in characteristics (i.e., depressive, anxious and stress symptoms as well as expertise in relaxation therapies) and biomarkers (e.g., heart rate variability, peripheral temperature, skin conductance, etc.). Prediction models can tailor breathing protocols to subgroups to increase expected efficacy.
This randomized controlled experimental study was conducted to determine the effect of swaddling and inhaling mother's breast milk odour on the pain and comfort during the placement of peripheral intravenous catheter in term infants.The population of the study consisted of term infants hospitalized in the neonatal intensive care unit of Karadeniz Ereğli State Hospital between 1st October 2020 and 1st October 2021. According to the G-Power analysis, the sample size was calculated as 120 and term infants were equally assigned to three experimental groups and a control group, each of which consisted of 30 infants. During the placement of peripheral intravenous catheter, the infants in the 1st experimental group were swaddled, the infants in the 2ndexperimentalgroup were made to inhale the mother's breast milk odour, the infants in the 3rd experimental group were both swaddled and made to inhale the mother's breast milk odour and no procedure was applied to the infants in the control group. The pain and comfort levels of infants in the experimental and control groups were assessed before, during and after the placement of peripheral intravenous catheter. "Infant Descriptive Information Form", "Neonatal Infant Pain Scale (NIPS)" and "Neonatal Comfort Behaviour Scale (NCBS) were used to collect data.
The effects of pursed-lip breathing or aerobic walking exercise in increasing muscle strength and motility and relieving dyspnea have been proved. However, patients with lung cancer often have decreased lung function and exercise capacity after lobectomy. The aim of this study was to explore the effects of pursed-lip breathing combined with aerobic walking exercise on postoperative oxygenation and exercise tolerance of lung cancer patients underwent lobectomy.
Sleep apnea-hypopnea syndrome is a sleep-related respiratory disorder characterized by partial or total interruptions in breathing during sleep. The majority of syndromes involve an obstructive mechanism (OSA), caused by a reduction in the caliber of the upper airway (UA), most often associated with hypotonia of the surrounding muscles, preventing air from entering the UA during inspiration (1). The clinical consequences of this syndrome are excessive fatigue and daytime sleepiness, which have a negative impact on the quality of life of patients. (2,3) Despite the positive results on apnea-hypopnea index and daytime sleepiness of continuous positive airway pressure (today's reference treatment), its 3-year compliance rate (i.e 59.9% according to a study by Abdelghani et al (4) points to the need to develop other associated therapies. Several studies have demonstrated the efficacy of physiotherapy, such as physical activity and oro-pharyngeal muscle strengthening, notably on the apnea-hypopnea index and daytime sleepiness measured by the Epworth scale (5,6). Few studies have investigated the effect of inspiratory muscle training (IMT), even though the use of the inspiratory musculature (i.e. the diaphragm) is a means of supplementing the peri-pharyngeal muscles, as it helps to maintain the permeability of the upper airways (7-9). Inspiratory muscle training (IMT) could therefore be considered as part of the physiotherapeutic management of the OSA. The heterogeneity of current results concerning IMT in OSA , but above all the lack of evidence that it is dangerous, means that new clinical studies could be carried out in an attempt to demonstrate its efficacy. Our research hypothesis is therefore as follows: Implementing an inspiratory muscle strengthening protocol in patients suffering from OSA can reduce daytime sleepiness.
This project will use literature analysis, expert research, real-world data mining and other methods to investigate the current status of the application of antimicrobial aerosolized inhalation in healthcare institutions, combine expert recommendations and real-world data analysis results to explore potential risk points in the process of antimicrobial aerosolized drug delivery, and sort out the key points of drug use management in healthcare institutions and the key points of regulatory recommendations for healthcare institutions.
The primary aim will be to understand whether a digital breathing biofeedback system can improve the outcomes of physiotherapist guided breathing retraining.
This study was designed as a randomized controlled experimental type in order to determine the effect of slow breathing exercise applied after the procedure on heart rate, blood pressure and quality of life in patients who underwent Primary Percutaneous Coronary Intervention (PCI) I after the diagnosis of ST Elevation Myocardial Infarction (STEMI). Patients who underwent primary PCI due to STEMI in a Training and Research Hospital in Istanbul will constitute the study population. A sample will be formed with a total of 80 patients, 40 experimental and 40 control groups, selected by computer assisted simple randomization method among volunteer patients who underwent primary PCI and met the inclusion criteria. In this study, slow breathing exercise training will be given to the experimental group by the coordinator. In their home followmup after discharge, they will be asked to do slow breathing exercises for 10 minutes twice a day for eight weeks. Data will be collected using the "Patient Information Form", "MacNew Heart Disease Health Related Quality of Life Scale", "VAS Breath Therapy Satisfaction Evaluation Form", "Self-Monitoring Form" and "Patient Follow up Form". Patients will be seen again during the outpatient clinic examination in the fourth and eighth weeks and the effectiveness of slow breathing exercises will be evaluated with data collection forms.
Clinical trials was used to compare the effect of peppermint inhalation and Swedish massage on chemotherapy induced-nausea and vomiting in children with leukemia. the main research hypotheses are: - Children with leukemia who receive peppermint inhalation exhibit less chemotherapy induced- nausea and vomiting than those who don't receive. - Children with leukemia who receive Swedish massage exhibit less chemotherapy induced-nausea and vomiting than those who don't receive. - Children with leukemia who receive Swedish massage exhibit less chemotherapy induced- nausea and vomiting than those who receive peppermint inhalation. children divided into three groups of study ( control group, peppermint inhalation group and Swedish massage group) to identify its effect on chemotherapy induced nausea and vomiting.