View clinical trials related to Apneic Oxygenation.
Filter by:Apneic oxygenation describes the process of continuous oxygenation of the blood without breathing efforts. This anesthesia technique has been described in the literature for more than 100 years and is sometimes used under general anesthesia, e.g. during surgery of the vocal chords. Although this technique usually provides marked prolongation of the apneic period because of excellent oxygenation, it is limited by the absence of ventilation and the corresponding accumulation of carbon dioxide in the blood. This will lead to worsening respiratory acidosis and associated complications, such as cardiac arrythmias. In 2015 it was reported that apneic oxygenation with high-flow nasal oxygen delivery systems (HFNO), a device that provides heated humidified oxygen at high flow rates (usually 30-70 L/min), resulted in less carbon dioxide accumulation compared with historical controls. This specific technique of apneic oxygenation was termed transnasal humidified rapid-insufflation ventilation exchange (THRIVE). To date, the impact on different flow rates on blood carbon dioxide accumulation during THRIVE is unknown. Specifically, very high flow rates, exceeding 70 L/min have not been investigated. Therefore, the aim of this trial is therefore to study the rate of accumulation of carbon dioxide during THRIVE at two different flow rates: 40 and 100 L/min.
Apneic oxygenation is a process of delivering continuous oxygen during direct laryngoscopy. Nasal cannulas are used for the purpose of oxygenation; for delivering either low flow or high flow oxygen but haven't been tested in terms of a superior study design on improving patient outcomes. In this study the investigators propose to assess the effect of giving low flow oxygen with head side elevation versus high flow oxygen with head side elevation against the usual practice of care in which no oxygen is provided during direct laryngoscopy on participant's oxygenation level. This will be a three arm study instituting block randomization technique. There will be no blinding due to the nature of intervention. The primary outcomes are lowest non-invasive oxygen saturation measurement during direct laryngoscopy and two minutes after the placement of the tube and first pass success rate. The intervention is unique as the investigators have introduced head side elevation up to 30 degrees for improving glottis visualization and low or high flow oxygen delivery on grounds to improve oxygenation for patient safety undergoing endotracheal intubation. The technique if proved successful can be employed as a method of airway management in the emergency room. The results of the study will open new horizons for the development of guidelines to utilize it as a routine measure, during airway management in the emergency room.
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.
Transnasal Humidified Rapid-Insufflation Ventilatory Exchange (THRIVE) was revealed to prolong apneic time with a slow increase in carbon dioxide; thus, has been used for preoxygenation in patients with difficult airways or requiring rapid sequence induction in general anesthesia. However, in patients undergoing hypopharyngeal and laryngo-tracheal surgery, THRIVE during operation can be advantageous by allowing tubeless surgical field with sufficient oxygenation. Therefore, the investigators conducted this study to evaluate the efficacy of THRIVE on prolonged apneic time with enhanced surgical conditions in patients with laryngeal microsurgery.
Before going off to sleep patients are given oxygen to saturate blood with oxygen to extend time before a decrease in the level of oxygen in the blood occurs. During this period, obese patients have a faster decrease in the level of oxygen in their blood. This study uses a device called "high-flow nasal cannula" (HFNC), which delivers humidified high-flow oxygen through 2 small plastic tubes placed just inside nostrils. In the intensive care unit settings this device has been used extensively and has become a standard practice. Purpose of this study is to determine whether these high-flow nasal cannula increase the time safely when going to sleep during elective surgery.
The study will test the efficacy of the Pentax AWSTM video laryngoscope (VLS) equipped with a P Blade (Figure 1) as the means to provide Apneic Oxygenation (AO) and prolong Duration of Apnea Without Desaturation (DAWD) in non-obese and morbidly obese females.
This is a randomized clinical trial investigating the utility of apneic oxygenation via nasal cannulae in the post-induction setting for the purpose of prolonging the safe apneic time. Three groups will be compared, a control group at 0 L/min, a 15 L/min and a 60 L/min group. The primary outcome will be the difference in the partial pressure of oxygen in arterial blood (PaO2) between groups throughout the nine-minute apneic period.