View clinical trials related to Airway Obstruction.
Filter by:Patients with obstructive sleep apnea (OSA) could have several anatomical causes of obstruction. A sleep endoscopy study is a technique to help determine the anatomical cause of OSA. This study will be using standard of care practice and infuse dexmedetomidine (DEX) to induce sleep. The goals of the study are to (1) confirm airway obstruction with endoscopic view and correlate that with Acoustic Respiratory Rate (RRa) signal at the moment of airway obstruction, and (2) characterize the EEG signals when subjects are under DEX sedation alone.
Chronic Obstructive Pulmonary Disease (COPD) is an increasing global health problem, which primarily increases among the female population. The purpose of this study is to perform in-depth clinical and molecular characterizations of early stage COPD patients, as well as healthy never-smoker and at-risk smoking control populations to identify molecularly related subgroups patients, including gender-related sub-phenotypes of COPD.
Literature shows that anaesthetists have a low success-rate when trying to access the airway percutaneously in case of failed ventilation and intubation. The study will investigate anaesthetists ability to locate the trachea and the thyroid cartilage and the cricoid cartilage in patients, using different methods including application of ultrasonography.
Rationale: Spray cryotherapy (SCT) using liquid nitrogen has been safely and effectively used in the esophagus, airways and pleura. Treatment with SCT for central airway stenosis may provide an effective, and more durable and perhaps safer alternative to the current therapeutic modalities. Objectives: 1. To investigate the feasibility of using Spray cryotherapy (SCT) for the treatment of malignant and benign central airway disease. 2. To investigate the safety of using Spray cryotherapy (SCT) for the treatment of malignant and benign central airway disease. 3. To investigate the efficacy of using Spray cryotherapy (SCT) for the treatment of malignant and benign central airway disease. Study design: This study will be a prospective, single arm, open label intervention study performed at the University Medical Center Groningen, The Netherlands Study population: The study population exists of 25 patients with malignant or benign central airway disease. Patients in which current treatment options are regarded to be suboptimal can be included in the study. Intervention: TruFreeze Spray CryoTherapy Main study parameter: Feasibility is defined as being able to apply the SCT as planned in one, or more bronchoscopies according to the instructions for use (IFU). Secondary study parameters: Safety will be assessed by capturing all adverse events (AEs) that occur 1) during the SCT procedure, and 2) all AEs that occur until hospital discharge. Efficacy will be measured using 1) patient reported outcomes (questionnaires), 2) percentage improvement in airway stenosis, 3) durability of treatment effect, 4) need to re-intervene with other therapies because of treatment failure. Nature and extent of the burden, risks and benefit associated with participation. Patients that will be recruited and participate in this prospective clinical trial have a severe central airway disease which is highly symptomatic for which current available therapies are either very difficult to perform, are hazardous, have no real benefit, or just simply not available yet. The current treatment risks of this patient group are high, especially in the patients where the airway patency is at risk. The main additional risk associated with the use of SCT is the occurrence of a pneumothorax. Patients participating will adhere to their current medical care, with the one addition of a voluntary follow-up bronchoscopy after SCT.
The aim of this study was to evaluate the safety and effectiveness of an radioactive airway stent loaded with 125I seeds compared to a conventional airway stent in patients with malignant airway obstruction caused by both primary and metastatic malignant tumors.
In preschool aged children, the most suitable techniques to assess airway obstruction is debit interruption technic (Rint) and plethysmographic measure of specific airway resistance (sRaw). Even if Rint is easily and routinely performed, it also includes a component of lung tissue and chest wall resistance as well as respiratory tissue viscoelasticity. sRaw seems to be better for discriminating airway obstruction. These two techniques will be compared in terms of concordance in the diagnosis of pulmonary obstruction and bronchodilator response.
The ELISABET STUDY is across sectional Survey on a representative sample of two urban area conduct on a representative sample. The main objective of the project is to compare the prevalence of the obstructive ventilatory disorders (OVD) in the Urban Community of Dunkirk touched by the industrial pollution in relation to the one recovered in the Urban Community of Lille (CUDL) less industrialized.
Pre-Hospital Advanced Airway Management (PHAAM) is a potentially lifesaving intervention. A recent Danish multicentre single country study demonstrated a 99,7% incidence of successful anaesthesiologist pre-hospital endotracheal intubation, with a PHAAM-related complication rate of 7.9%. A London study revealed a significantly higher intubation failure rate among non-anaesthesiologist physicians. In Scandinavia different types of emergency medical services (EMS) and professions provide PHAAM. The success rate of prehospital endotracheal intubation (PHETI), incidence of difficult intubation and complications in the Nordic countries is not known. The aim of this study is to define PHAAM success rate and complications in different types of Nordic EMS organisations and physician critical care teams. The study is a prospective observational study with collection of PHAAM data according to the template by Sollid et al. in the 12 participating Nordic Countries EMS/HEMS centres and physician critical care teams. The primary endpoint is PHETI success on ≤2 attempts and no complications.
Maintaining a patent airway is a constant concern to any anesthesia provider performing deep sedation cases. The doses of sedative medications often required for the desired level of sedation in a patient often result in occlusion of the airway and the patient becoming apneic. Opening the collapsed or occluded airway requires the use of an invasive airway device, (e.g. laryngeal mask airway (LMA), oral airway or nasal airway) or the application of a jaw thrust maneuver. When the provider provides jaw thrust while attending to the other duties, the patient may not have adequate ventilation and the patient's oxygen saturation can fall producing hypoxemia. Airway management devices currently available require deeper levels of sedation to be tolerated by patients. In order to avoid the need for internal airway devices, providers attempt to carefully adjust the level of sedation so that no airway support is required. For safety, providers usually try to stay on the "light" side of the sedation scale. Unfortunately, this often results in an uncomfortable patient or one who is moving too much to successfully carry out the procedure. Until the availability of the Jaw Elevation Device (JED) there was no external device providers could utilize to assist in opening a patient's airway. By duplicating the jaw thrust maneuver, the JED maintains a patent airway. Once applied, it frees the anesthesia provider to attend to other duties associated with administration of anesthesia without requiring the provider to manually maintain a jaw thrust maneuver. The advantages with such a device would allow a level of sedation deep enough for the patient to tolerate the procedure as well as maintain a patent airway. To date, there have not been any studies evaluating the JED in clinical practice. The investigators wish to evaluate the JED in a standardized fashion during deep sedation or monitored anesthesia care (MAC). Our study would involve 50 patients who became apneic during deep sedation or MAC. A jaw thrust maneuver will be initially performed to demonstrate that each patient's airway can be adequately supported by this maneuver. The JED will then be placed in order to maintain a patent airway, while leaving the level of sedation unchanged. Intraoperative monitoring, continuous ECG, pulse oximetry, blood pressure, capnography, will be routine, and determined by the anesthesia team. The investigators will also track how often the provider was required to adjust the JED to maintain a patent airway, and if the need to convert to an alternate method of airway management was required. The investigators will pursue publication of the results as the first study demonstrating the efficacy of the JED.
The airflow moving from mouth to the lungs, which can be measured by pulmonary function tests, may be affected by the anatomic disorders of the upper airway. Difficult airway can be considered as the anatomic disorder of the upper airway as well. Therefore, there can be a relationship between difficult airway and pulmonary function tests. The purpose of this study is to elucidate the association between the pulmonary function tests and difficult airway.