View clinical trials related to Respiration.
Filter by:Children's motor skills and physical performance increase with age due to the development of neuromuscular and cardiorespiratory systems. Sensory impairment seen in children with hearing loss can cause balance and coordination disorders, as well as decreased muscle strength and respiratory functions. Anatomically, core stabilization is provided by the diaphragm, abdominal, hip, pelvic floor, and gluteal muscles. Training for these muscles is intended to improve strength, endurance, and neuromuscular control. This training can help to improve the control of intra-abdominal pressure, intersegmental control of the spine, and muscular control of trunk movement. It also helps in strengthening the respiratory muscles, especially the main inspiratory muscle, the diaphragm. In this study, the effects of core stabilization training on children with hearing impairments' thoracic mobility, functional ability, and trunk muscle endurance will be examined.
Obesity is becoming a common condition and bariatric metabolic surgery is one of the main options for treating morbid obesity. However, since most patients undergoing robotic bariatric surgery are class III obese, it brings new challenges to perioperative anesthesia management. Here, we explored the effects of lung-protective ventilation strategies on pulmonary oxygenation function and respiratory mechanics in patients undergoing robotic bariatric surgery.
The VERDICT-2 verification study will examine the accuracy of the Cloud DX Vitaliti Continuous Vital Signs Monitor (Model: CVSM-1A) in an ambulatory context with healthy participants. The objective is to determine the accuracy of continuous non-invasive vital signs metrics including respiration, pulse rate, oxyhemoglobin saturation (SpO2), core temperature, heart rate, and cNIBP against standard comparator devices guided by consensus standards.
Parkinson's disease (PD) is the second most common progressive disease after Alzheimer's disease.It is a progressive, multisystemic and neurodegenerative disease. The prevalence of Parkinson's disease increases with age. increases together. In industrialized countries, people over the age of 60 account for 0.3% of the entire population.It affects about 1% of people and 3% of people over the age of 80 .Patient management with telerehabilitation (TR), chronic heart disease, neurological dysfunction.It is as effective as face-to-face treatment in different clinical conditions such as musculoskeletal and musculoskeletal disorders proven . In addition, TR will increase accessibility and create a less restrictive environment. comparable to traditional rehabilitation as it provides new opportunities to create not only can it be more effective than it . Intense exercise and long-term training In cases where it is necessary, it is accepted to continue exercise therapy with TR programs at home.may be a viable solution.When telerehabilitation-based studies are examined, communication, swallowing and walking are generally focused on parameters. Treatment with telerehabilitation method in PD, Studies investigating the effects on respiratory and postural instability parameters are quite is limited . The aim of this study is to improve telerehabilitation-based exercise training in PD. respiratory muscle strength, cough capacity, dynamic balance, participation in activities of daily living and to investigate its effect on walking parameters. also online physiotherapist.Comparing the effects of supervised exercises and offline video-based exercise training intended.
The aim of the study is to analyze the variability of plethysmography curve depending on the breath cycle (respiratory rate and tidal volume).
This is an observational, cohort-based, single-site, prospective study conducted in accordance with ISO 14155-1:2003 and ISO 14155-1:2011. The primary objectives are to evaluate the accuracy of the device's measurements/readings in comparison to a gold standard or standard of care patient monitor.
Objectives: To investigate the efficacy of bedside respiratory muscle training on pulmonary function and stroke-related disabilities in stroke patients. Design: Prospective randomized controlled trial Setting: A single physical medicine and rehabilitation department at a university hospital Participants: Stroke patients in a rehabilitation unit were recruited and randomly assigned to either the intervention group or the control group. Intervention: Both groups participated in a conventional stroke rehabilitation program. During the study period, the intervention group received bedside respiratory muscle training twice a day for three weeks. The respiratory muscle training consisted of (1) a breath stacking exercise, (2) inspiratory muscle training and (3) expiratory muscle training. The participants were evaluated at baseline and again at the end of the study (3 weeks later). Main Outcome Measures: The primary outcomes were measures of pulmonary function: functional vital capacity (FVC), forced expiratory volume in one second (FEV1) and peak flow. Secondary outcomes were stroke-related disabilities assessed by the following: National Institutes of Health Stroke Scale, Modified Barthel Index, Berg Balance Scale, Fugl-Meyer Assessment, the Korean Mini-Mental State Examination, and the incidence of pneumonia.
Apnea, a cessation in breathing is critical condition that affects the person regardless of age. In infants, an apneic state occurs when there is an absence of respirations for 20 seconds (Alvaro & Rigatto, 2012). In adults, there is a correlation between sleep apnea with increased risks of cardiovascular health problems (Wimms, Woehrle, Ketheeswaran, Ramanan, & Armitstead, 2016; Wu, Yuan, Wang, Sun, Liu, and Wei, 2016; Hao, Xiandao, Li, Jingwu, Jinghua, & Yongxiang, 2016). The purpose of this proposed study is to investigate the reliability of a smart bed sheet's ability to detect physiological signals such as respiratory patterns. The study's goals are two-fold: 1) to determine the sensors' ability to detect patterns with regards to input signals, and 2) to evaluate the efficacy of pressure sensor signals collected in relaying respiratory rate and respiratory patterns to monitor different thresholds of respiration rate and pattern which may include critical parameters dangerously outside of life sustaining norms.
The purpose of this study is to test the association between ICU acquired weakness as evaluated by dominant handheld dynamometry (handgrip) and the mechanical ventilation weaning outcome
The pelvic floor and diaphragm work together in many different functions. Two important functions are breathing and continence. The pelvic floor muscles have to lift and squeeze to maintain continence. Breathing, specifically breathing out, makes the pelvic floor lift. The investigators don't know how much the pelvic floor lifts and squeezes during different types of breathing out. The purpose of this study is to measure pelvic floor lift and squeeze during different types of breathing out.