8 Clinical Trials for Various Conditions
This study compares a novel breathing device, called the GO2 Mouthpiece, to the standard breathing tool called the incentive spirometer, thus improving respiratory dynamics of the postoperative patient.
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.
Patients undergoing general anesthesia require mechanical ventilation (artificial delivery of air and oxygen to their lungs). It is well known that during mechanical ventilation, so-called atelectasis formation occurs. This is a condition characterized by partial or complete collapse of lung tissue that can result in a reduction in oxygen uptake through the lung. A known risk factor for atelectasis formation during mechanical ventilation is the utilization of high oxygen concentration, as the oxygen molecules are absorbed in the lung, which then can lead to collapse of the tissue. Despite the proven association, standard operating procedure at the end of anesthesia still requires utilization of 100% oxygen. Its justification is the goal to ensure sufficient oxygenation throughout the extubation phase. However, clinical observation doesn't show a lack of oxygenation in this phase, but the patient is still exposed to the risk of atelectasis formation. This study aims to investigate the hypothesis of whether the utilization of reduced inspiratory oxygen concentration before extubation (70% or 40% compared to 100%) reduces atelectasis formation. The study was originally planned to randomize 24 patients to either 70% or 100% inspiratory oxygen concentration at the end of anaesthesia. After completion of this first phase, the study was amended to enroll another 24 patients randomized to 40% or 100% inspiratory oxygen concentration at the end of anaesthesia. Of note, both concentrations are still higher than when breathing room air in, which has of 21% oxygen. During the intervention, parameters such as the oxygen content in the blood (oxygen saturation, SpO₂), heart rate, and blood pressure are recorded, and atelectasis formation is measured using a technique called electrical impedance tomography (EIT). EIT measurements are performed at designated time points during the procedure. Anesthesia care providers are asked to document procedural, patient, and ventilator data in a questionnaire. Secondary outcomes are the homogeneity and distribution of air measured with EIT, as well as some clinical outcomes including post-extubation desaturation (\<90% SpO₂), incidence of re-intubation or non-invasive ventilation, and the Post-anesthesia Care Unit (PACU) length of stay.
The Effectiveness of the Jamboxx Respiratory Therapy Device in Treatment of Patients with Decreased Respiratory Function is a proposal for investigation of the application of gaming to improving respiratory health. The Jamboxx device (see appendix A for device details) combines gaming with traditional incentive spirometry to provide users with a fun experience to keep them engaged in their respiratory therapy routine. The device allows users to play a series of mini-games that walk them through their routines. The Jamboxx also records airflow and lung parameters with an external mouthpiece attachment to provide users with real time feedback, and helps to assess increases or decreases in relative lung function over time. The Jamboxx has the potential to significantly impact the field of respiratory therapy by being one of the first gaming devices for patient therapy, and the first respiratory therapy gaming device that is accessible to users with limited mobility. Jamboxx provides a fun and engaging, low cost alternative to the traditional therapy techniques used and aims to improve patient compliance. This study addresses postoperative pulmonary atelectasis that results from diaphragm dysfunction and pain following upper abdominal surgery. This issue is a major cause of morbidity in these patients (Ford et al 1983). Incentive spirometry is used in this setting, but there is conflicting data regarding its effectiveness (Rupp et al 2013). Study 3 will focus on the questions regarding the influence of education and a novel use of a gaming device on prevention of atelectasis. Study 3 will include 3 subgroups of subjects. The first subject group will be enrolled in a nonintrusive observation only studies. Group 1 will explore the effect of technology via a tablet device on standard spirometry usage. Group 2 will look at the combined effect of technology via the tablet device and intensive education on compliance and reduction of post-surgical atelectasis. Finally, Group 3 will explore the effect of gaming technology with intensive educational reinforcement on compliance and reduction of post-surgical atelectasis.
To determine if a therapy regimen including treatment with The MetaNeb® System had a positive impact on the rate of pulmonary complications related to atelectasis and/or secretion retention that occur in high risk post-operative patients. This is a non-randomized facility (or hospital) level pre-post intervention study.
This study evaluates the omission of incentive spirometry use following bariatric surgery. Half of participants will receive an incentive spirometer while the other half will not. Oxygen saturation and pulmonary complications after surgery will be measured to examine the effectiveness of incentive spirometry.
The purpose of this study is to determine whether breathing high levels of oxygen during surgery affects oxygen levels after surgery. The second purpose of this study is to determine whether giving positive end expiratory pressure PEEP and high oxygen together affects patients oxygen levels after surgery.
The goal of this study to evaluate whether eliminating the use of non-depolarizing neuromuscular blocking agents (NMBA) for maintenance of general anesthesia reduces postoperative pulmonary complications in higher risk patients.