Prevention of Airway Obstruction Events
Sleep ApneaMixed Central and ObstructiveThe standard for treatment for people suffering from obstructive sleep apnea (OSA) syndrome involves the use of Continuous, or Automatic Positive Airway Pressure (CPAP, APAP) machines, which work by delivering air via tubing and mask to a patient at pressures of up to 20cmH2O. This increased pressure is meant to stabilize the airway to reduce obstruction events. APAP machines are generally more effective and more comfortable for patients than CPAP machines because these devices automatically adjust pressure to treat an apnea. However, this treatment is reactive and often ineffective since the necessary pressure is applied seconds after breathing has already stopped; The results of a previous study performed showed strong indications for predicting an apnea before it occurs using measurements collected by existing sensors of the CPAP and APAP machines. If apnea events can be predicted before they occur, the air pressure required to treat them could be supplied ahead of time, preventing the apnea from occurring. The hypothesis to be tested is whether obstructive sleep apnea events can be prevented, by predicting their onset ahead of time and adjusting the airway pressure accordingly.
VivAer: A Correlation Between Symptom Scores and Objective Findings
Nasal ObstructionMedically Unexplained Symptoms2 moreThis is a prospective, single-center study. This study seeks to determine the objective improvement in nasal airflow in patients after undergoing the VivAer procedure, which involves the use of a stylus to deliver controlled and targeted low energy radiofrequency heating (heating by applying high-frequency radio waves) to the nasal sidewall to gently reshape the tissues. Patients who experience refractory, or medically unexplained, nasal obstruction often have symptoms that are not alleviated or resolved by standard non-surgical treatment options. VivAer, a recently developed, FDA-approved procedure, is one of the standard surgical treatments for nasal obstruction. Unlike most of the other established surgical treatments for nasal obstruction, however, VivAer is a minimally-invasive procedure, and it is an outpatient intervention that can be performed under local anesthetic. Eligible patients who are enrolled in the study will undergo the VivAer procedure, and will return to the clinic for three in-office follow-up visits at 4, 12, and 24 weeks after the procedure.
Paclitaxel-Coated Pulmonary Balloon for the Treatment of Benign Airway Stenosis
Central Airway ObstructionThe goal of this Prospective Trial of Paclitaxel-Coated Pulmonary Balloon for the Treatment of Benign Airway Obstruction (OXYGEN-1) is to evaluate clinical safety and potential efficacy of the Airiver Pulmonary DCB in the treatment of benign central airway stenosis.
Effect of Nasal Positive Airway Pressure Versus Standard Care on Oxygenation and Ventilation During...
Obstructive Sleep ApneaObesityThe 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).
Self-Supporting Nasopharyngeal Airway (ssNPA) Treating Upper Airway Obstruction in Hypotonia
Obstructive Sleep ApneaHypertonia5 moreThe researchers are investigating if the Self-Supporting Nasopharyngeal Airway (ssNPA) device can be used in the treatment of obstructive sleep apnea in children with Hypotonic Upper Airway Obstruction (HUAO).
Anti-Snoring Appliances and Airway Manipulation in Patients Undergoing Anesthetic Sedation
Airway ObstructionSnoring1 moreWould patients using an anti-snoring appliance intraoperatively require less airway manipulation, interventions, and rescue maneuvers during anesthetic sedation cases compared to those who do not? The investigators will use anti-snoring appliance devices (specifically the FDA approved Zyppah) to attempt to relieve tissue obstructions that cause snoring during sleep. The application of the devices to the body is less invasive than other common intraoperative rescue airway devices (e.g. nasal trumpets and oral airways) which are not designed to be patient specific.
Wei Nasal Jet Tube vs Nasal Cannula Oxygen Support in Gastrointestinal Endoscopy Patients
Supraglottic Airway ObstructionAirway Complication of Anesthesia5 moreSedoanalgesia is applied to patients during gastrointestinal endoscopy. Sedoanalgesia may cause respiratory depression and hypoxia in patients. During these procedures, patients should be given oxygen support to reduce the incidence of hypoxia.This study aimed to compare the efficacy and procedural performance of two different airway devices (Wei Nasal Jet Tube vs Nasal Cannula Oxygen Support) in Gastrointestinal Endoscopy
A Modified Cuff Leak Test and Reintubation in Mechanically Ventilated Patients
Mechanical Ventilation ComplicationWeaning Failure1 moreWe hypothesized that the accuracy of the modified cuff leak test in predicting re-intubation in tracheal intubated patients is better than that of the conventional balloon leak test, thereby further reducing the re-intubation rate.
Mechanisms of Upper Airway Obstruction
Obstructive Sleep ApneaThe current study is designed to examine underlying mechanisms of action of lingual muscles in the maintenance of airway patency during sleep. The investigators' major hypothesis is that specific tongue muscles are responsible for relieving upper airway obstruction during sleep.
Upper Airway's Pressure Drop Analyses After Mandibular Advancement and Maxillary Expansion
ApneaAirway Obstruction3 moreBreathing is a crucial function for everyone. Breathing impairment in children could lead to behavioral and cognitive problems at least. But what if orthodontic treatment could help those patients to breathe better, with less effort? This research proposal aims to find out if the increase in the upper airway volume seen in some research results can be related to a decrease in respiratory effort and an improvement in the breathing capacity of those patients. In other words, if a tube shape is changed or if a tube is enlarged, would the airflow passing inside the tube change in velocity? Or would there be more air? Therefore, investigating the pressure/airflow, volume/lumen relation and its possible changes after mandibular repositioning and maxillary expansion in children will lead to a better understanding of how orthodontics could potentially affect the upper airway. Previous studies have reported a link between mandibular advancement appliances and maxillary appliances to an increase in the upper airway volume. However, more studies are needed to evaluate the relationship between the changes in the upper airway volume and actual airflow and respiratory capability. The airway volume measurement is important to, preliminary, state if there is an increase in the upper airway after orthodontic treatment. However a change in shape, even with the same volume, can affect the pressure and airflow. In this sense, the pressure drop analysis will allow an answer to those questions