View clinical trials related to Respiratory Therapy.
Filter by:Fibrotic lung disease is a group of severe scarring lung diseases with a dismal prognosis, often leading to respiratory failure and need for oxygen treatment. The symptom burden is often extremely high with dyspnea at rest and increasing dyspnea with exertion. Patients will often need more oxygen during activity thus repeatedly adjustments of oxygen flow rates are required to target an acceptable saturation at rest and during activities. This is impractical and can lead to an undesirable focus on oxygen levels as well as reduced use of the oxygen treatment in everyday life. There is an urgent need for oxygen equipment that is easy to use to help patients live a life with fever symptom-related restrictions. Closed Loop Oxygen Titration (CLOT) is a new type of optimized oxygen treatment, which automatically adjusts the oxygen flow rate to the exact amount needed for the patient. The CLOT has already been tested and found useful in patients with other lung diseases, however it has not yet been tested in an isolated group of patients with fibrotic lung disease. The goal of this clinical trial is therefore to study if automatically adjusted oxygen delivery can be useful for patients with fibrotic lung disease who needs oxygen treatment during activity. The main questions aimed to be answered are: Will participants experience less breathlessness during walking, when the oxygen supply is individually adjusted to maintain an acceptable level of oxygen saturation? Our hypotheses are that automatically adjusted oxygen dose during walking will results in less breathlessness compared to the usual fixed dose of oxygen. Furthermore, that participants will walk longer and maintain a better oxygen saturation during a walking test when offered automatically adjusted oxygen dose. Participants will perform two walking tests with both automatically adjusted and fixed dose oxygen in random order, and the difference in sensation of breathlessness will be compared between the two tests.
The purpose of the study is to collect data: audio in the form of respiratory sounds and instructions from the therapist, spirometry data during the execution of the therapy, physiological parameters, and patient information. With the help of this data, algorithms will be developed for the automatic detection, localization, and classification of respiratory sounds, linked to the respiratory cycle using spirometric signals.
The purpose of this study is to determine if the frequency of use of incentive spirometry during the stay in the Post-Anesthesia Care Unit (PACU) increases with visual and auditory electronic reminders, as compared to not having those reminders.
Respiratory Therapists (RTs) have difficulty maintaining compliance with protocols and making efficient handoff communication. This project will evaluate the effectiveness of an electronic tool that will display a dashboard of key information on all the RTs patients and provide reminders that indicate whether evidence-based practice protocols are being followed. In addition, it will collect data from medical devices and the EMR and outline key information in the appropriate format to help standardize and improve handoff communication. The study will first collect blind baseline data for comparison with protocol adherence and silently evaluate shift change handoffs. In the second stage, the electronic tool will be installed and used to evaluate whether protocol compliance and shift change handoff is improved.
Respiratory Therapists (RTs) have difficulty maintaining compliance with protocols and making efficient handoff communication. This project will evaluate the effectiveness of an electronic tool that will display a dashboard of key information on all the RTs patients and provide reminders that indicate whether evidence-based practice protocols are being followed. In addition, it will collect data from medical devices and the EMR and outline key information in the appropriate format to help standardize and improve handoff communication. The study will first collect blind baseline data for comparison with protocol adherence and silently evaluate shift change handoffs. In the second stage, the electronic tool will be installed and used to evaluate whether protocol compliance and shift change handoff is improved.
The primary aim of this randomized control trial is to analyze by direct comparison the ZEPHYRx Respiratory Therapy (RT) system and the FDA approved standard of care (SOC) incentive spirometer (IS), used for FDA approved indications at the University of Rochester Medical Center (URMC). This comparison will determine subject preferences in terms of usability and simplicity of each, as well as subject engagement and adherence to the prescribed respiratory therapy routine. Additionally, the study will analyze the effectiveness of the gamified spirometry with regards to spirometry volumes, frequency of usage, and pulmonary complications 30 days post discharge.
Objective: To prove that initiation of chronic ventilatory support at home, in patients with chronic hypercapnic respiratory failure due to neuromuscular disease (NMD) or thoracic cage problem is not inferior compared to initiation in a hospital based setting. In addition we believe that the start at home is cheaper compared to an in-hospital start. Hypothesis: Initiation of chronic ventilatory support at home is effective, safe and cost effective compared to a hospital-based initiation. Study design: A nationwide non-inferiority multi-center randomized parallel active control study. Study population: Patients with chronic respiratory insufficiency due to a neuromuscular disease (NMD) or thoracic cage problem who are referred for chronic ventilator support. Intervention: The start of HMV at home Standard intervention to be compared to: The start of HMV is normally in a clinical setting as recommended in the national guideline. Outcome measures: Primary: PaCO2. Secondary: Health related quality of life; lung function; nocturnal transcutaneous carbon dioxide assessment and saturation, and costs Sample size calculation/data analysis: This is a non-inferiority trial based on PaCO2 as primary outcome. A difference in favor of the hospital care group of smaller than 0.5 kPa will be labeled as non-inferior. To retain 72 evaluable patients, and allow for drop-outs, we will include 96 patients in total. Cost-effectiveness analysis: A cost analysis will be conducted alongside the clinical trial. Costs of the initiation of HMV at home and in the hospital will be estimated form a societal perspective over a time horizon of 6 months. Time schedule: After an initial phase of 6 months recruitment will start and will take 24 months. Thirty-six months after the start of the study the last assessments will be done and analysis and writing of the papers will start. After 42 months the study will end.
This study evaluates the impact of preoperative high-intensity inspiratory muscle training (IMThi) before cardiac surgery on perioperative inflammatory response. Half participants will receive high intensity inspiratory muscle training and the others a sham inspiratory muscle therapy.
Multicenter randomized trial centered on critically-ill tracheostomized patients, comparing two different decannulation protocols: 1. based on capping trials to decide decannulation, 2. based on the aspiration frequency to decide decannulation time. High-flow conditioned oxygen therapy will be applied to all patients through the tracheal cannula. In patients included in the suctioning frequency based protocol along the study period and in patients included in the capping trial protocol along periods out of capping trials.
The purpose of the Registry is to provide continuing evaluation and periodic reporting of safety and effectiveness of Medtronic market-released products. The Registry data is intended to benefit and support interests of patients, hospitals, clinicians, regulatory bodies, payers, and industry by streamlining the clinical surveillance process and facilitating leading edge performance assessment via the least burdensome approach.