13 Clinical Trials for Various Conditions
This RCT is testing the efficacy of apneic oxygenation during endotracheal intubation in the emergency department. Currently the standard practice in the ED when performing endotracheal intubation is that some providers use apneic oxygenation (the application of a nasal cannula at 15LPM) throughout the intubation procedure, while others do not apply apneic oxygenation. Initial literature in the operating room showed that apneic oxygenation helps prevent desaturation during the procedure. However, the latest literature conducted in critical care settings (one study in the ICU and one in the ED) questions the efficacy of this intervention in critically ill patients; however, no harm has been shown. Our study aims to test this intervention further by adding in a special subset of patients that was excluded from prior studies, precipitous intubations, or those patients that have to be intubated quickly and cannot have adequate pre-oxygenation. We hypothesize that apneic oxygenation will be more efficacious in this subset than in the overall ED population. We will randomize patients requiring endotracheal intubation into intervention (apneic oxygenation) and control (no apneic oxygenation). We will measure the lowest arterial oxygen saturation from the start of the intubation procedure through 2 minutes after intubation is complete.
This prospective, randomized, double-blind study is intended to enroll a total of 100 patients with a BMI ≥ 40 kg/m2 and another 100 patients with a BMI ≥ 30 kg/m2 (but less than 40 kg/m2) undergoing surgery with general endotracheal anesthesia at Parkland Hospital. Patients will be randomized to receive either 15 L/min O2 or 15 L/min air from a standard nasal cannula during a simulated prolonged laryngoscopy. The anesthesia provider will do a direct laryngoscopy to ensure that the patient has a Cormack-Lehane grade I-II airway. Patients who have grade III-IV airways will be excluded from further study procedures and not analyzed. The rest of the anesthetic will not deviate from the standard of care. Anesthesia providers will be blinded as to whether patients are receiving oxygen or air during the apneic period.
The purpose of the study is to determine the impact of apneic oxygenation on the time to desaturation in pediatric patients treated in a pediatric intensive care unit (PICU). The investigators hypothesize pediatric patients will have an increase in time to desaturation with apneic oxygenation when compared to standard practice in the PICU.
This study will determine rates of first pass success without hypoxemia in emergency department intubations with and without the use of apneic oxygenation by nasal cannula.
To determine the impact, if any the application of oxygen during the apnea period of rapid sequence intubation has on patients being intubated in the emergency department.
Airway placement after anesthetic induction in pediatric patients is routinely performed at our institution without apneic oxygenation. When intubation is attempted by an inexperienced (learner) provider, the attending physician intervenes if necessary before the patient experiences excessive loss of oxygenation. The investigators plan to institute routine supplemental oxygenation via nasal cannula during this placement. This study will examine the effect of adding apneic oxygenation via nasal cannula on oxygen saturation.
Respiratory failure requiring endotracheal intubation occurs in as many as 40% of critically ill patients. Procedural complications including failed attempts at intubation, esophageal intubation, arterial oxygen desaturation, aspiration, hypotension, cardiac arrest, and death are common in this setting. While there are many important components of successful airway management in critical illness, the maintenance of adequate arterial hemoglobin saturation from procedure initiation until endotracheal tube placement is paramount as desaturation is the most common factor associated with peri-intubation cardiac arrest and death. Interventions that either shorten the duration of time required for tube placement or prolong the period before desaturation may be effective in improving outcome. The high rate of complications and the lack of existing evidence regarding the efficacy of current airway management techniques in shortening the time to airway establishment or prolonging the time to desaturation mandates further investigation. The primary hypothesis is that video laryngoscopy will be superior to direct laryngoscopy in successful first attempt at endotracheal intubation (defined by confirmed placement of an endotracheal tube in the trachea during first laryngoscopy attempt) of medical ICU patients by Pulmonary/Critical Care Medicine fellows after controlling for the operator's past number of procedures with the equipment used. Also, the investigators hypothesize that the provision of apneic oxygenation during the endotracheal intubation procedure (defined as a nasal cannula with 15 liters per minute of oxygen flow placed prior to sedation or neuromuscular blockade and maintained until after completion of the procedure) will result in a higher arterial oxygen saturation nadir (defined as lowest noninvasive oxygenation saturation value observed between the administration of sedation and/or neuromuscular blockade and 2 minutes after successfully secured airway or death) compared to no apneic oxygenation.
Patient demographics (age, height and weight) will be collected for 546 consecutive patients presenting for dental restoration under general anesthesia. The baseline saturation will be recorded. The induction of anesthesia will be standardized for all patients. All patients will undergo an inhalational induction administered by face mask. After inserting an intravenous (IV) line, rocuronium will be administered. Intravenous propofol and fentanyl could be added at the discretion of the anesthesiologist. The patients will be mask ventilated then be with a mixture of Air/Oxygen (O2) to achieve an FiO2 of 0.3 for 3 minutes after the administration of rocuronium. Patients will be randomly assigned to one of three groups for the purpose of airway management: 1) direct laryngoscopy for nasotracheal intubation without oxygen insufflation (DL group); 2) direct laryngoscopy for nasotracheal intubation with oxygen insufflation (DLO2 Group); and 3) nasotracheal intubation using the Truview PCD video laryngoscope (VL Group). Computer-generated treatment allocations (using the PLAN procedure in SAS statistical software, using random-sized blocks) will be maintained in sequentially numbered sealed envelopes that will be opened after consent is obtained. The laryngoscopy and intubations will be performed by the study investigators who are faculty anesthesiologists or by the mid-level or resident or fellow working with them. The study will be stopped when: * the patient will be intubated and a CO2 trace is obtained on the capnography or * if the patient desaturates to 90% * or if the patient shows signs of cardiac instability (ectopic beats, arrhythmia or hypotension) Randomized groups will be compared for balance on potentially confounding baseline variables using descriptive statistics. Primary outcome: In the primary hypothesis, desaturation will be characterized using both time to 1% saturation drop from the baseline and the rate (slope) of desaturation after an initial 1% drop. We will consider a given intubation technique (DLO2 or VL) better than DL on controlling saturation if found noninferior (i.e., not worse) on both outcomes and superior on at least one of the outcomes. Thus our primary hypothesis will be assessed in a joint hypothesis testing framework described by Mascha and Turan. We a-priori define the non-inferiority delta for the outcome time to 1% drop as 5 seconds (or 1.05 if using hazard ratio) and the slope delta as 0.05 percent per second.
Tracheal intubation in the NICU is frequently complicated by severe oxygen desaturation. Apneic oxygenation, a method of applying free flowing oxygen via nasal cannula to apneic patients undergoing intubation, prevents or delays oxygen desaturation during intubation in adults and older children. We propose to enroll patients at two sites (Hospital of the University of Pennsylvania and Children's Hospital of Philadelphia) in a randomized trial in infants undergoing intubation in the NICU to determine if apneic oxygenation, compared with no respiratory support or oxygen during laryngoscopy and intubation attempts (standard care), reduces the magnitude of oxygen desaturation during tracheal intubation encounters.
The purpose of this study is to to compare oxygenation and ventilation on spontaneously ventilating obese patients or those with diagnosed or undiagnosed Obstructive sleep apnea (OSA) undergoing day colonoscopy under Propofol based sedation, between the SuperNO2VA Et™ nasal positive airway pressure (PAP) device and routine care with face mask for oxygen (O2).
Background: Obstructive sleep apnea (OSA) occurs when the blockage of the airway causes a person to stop breathing involuntarily for 10 seconds or more throughout the night during sleep. Pediatric OSA can be especially concerning and can have long-term effects. Researchers want to see how a monitoring device called near-infrared spectroscopy (NIRS) compares with the traditional techniques used in children s sleep studies. Objective: To learn about oxygen levels in the brain and limbs in children with and without sleep apnea using a wearable, point-of-care biosensor. Eligibility: Children aged 3-12 who have OSA and plan to receive treatment (OSA group) or who do not have OSA (NORM group). Design: Participants will be screened with a review of their medical records. If they have taken part in other NIH studies, that data will be reviewed as well. Participants in the NORM group will have 1 overnight study visit. Those in the OSA group will have 2 overnight study visits. Participants will do an overnight sleep study. They will have a physical exam and medical history. They will have a sleep study electroencephalography (EEG). For this, electrodes will be placed on their head. They will wear a gauze cap to keep the electrodes in place. Two NIRS probes made of a soft silicon will be placed on their forehead and arm. They will follow their normal bedtime routine. Their parent will stay overnight. The OSA group will have a second study visit 2 weeks to 12 months after they start treatment for their sleep apnea. They will repeat the sleep study.
This is a clinical trial to test the clinical feasibility and safety of a novel CMR protocol, combined with a specific breathing maneuver to identify myocardial regions exposed to severe coronary artery stenosis.
The goal of this trial is to assess the performance of the OxiplexTS-an absolute near-infrared oximeter-as an instrument to measure brain oxygenation and hemodynamics in sleep medicine as well as in the broader field of cardiovascular/cerebrovascular diagnostics.