Overview
Drug-induced sleep endoscopy (DISE) represents an opportunity to evaluate the upper airway in sleep-like conditions. In its current clinical form, however, DISE does not routinely determine the functional impact of anatomic and neuromuscular factors on airflow obstruction.
The investigators will apply nasal pressure (CPAP) during DISE to generate pressure-flow and pressure-area relationships, deriving functional determinants of upper airway obstruction during sleep. In addition, they will use objective anatomic measurements from computerized tomography (CT) and submental ultrasound. The findings will allow the investigators to streamline the upper airway exam during DISE, and will further the goal of developing personalized solutions that address specific pathogenic mechanisms of pharyngeal collapse and airflow obstruction during sleep.
The investigators will use the physiologic and anatomic features derived from DISE and imaging to determine which are predictive of success to standard-of-care surgical interventions (e.g. skeletal, soft tissue, neurostimulation) .
Description
Obstructive sleep apnea (OSA) is characterized by recurrent upper airway obstruction due to inadequate muscle tone during sleep leading to nocturnal hypercapnia, repeated oxyhemoglobin desaturations and arousals. Continuous positive airway pressure (CPAP) is the therapeutic mainstay for OSA, but adherence remains poor.
Currently, there exist 3 classes of surgical therapy for OSA, each addressing a specific pathologic structure: skeletal surgery (target: jaw bones), neurostimulation (target: tongue), and soft tissue (target: soft palate). Unfortunately, there is a critical knowledge gap in terms of accurately identifying a patient's underlying mechanism of obstruction; as a result, the efficacy of surgical treatment is limited.
Drug-induced sleep endoscopy (DISE) represents an opportunity to evaluate the upper airway in sleep-like conditions. In its current clinical form, however, DISE does not routinely determine the functional impact of anatomic and neuromuscular factors on airflow obstruction. In June 2020, the investigators implemented a pilot protocol (IRB # 833511) to utilize measures of airflow, pressure catheters, and ultrasound to enhance DISE exams. Over the course of 100 patients, they refined the research protocol to generate a safe, efficient, and comprehensive physiologic exam of the upper airway in the clinical setting (Dedhia et al, ORL, 2021, in press).
Upper airway pressure-flow and pressure-area relationships will be characterized during a standard-of-care DISE by stepping through a range of nasal pressure (CPAP) levels to derive functional determinants of upper airway obstruction during sleep. The investigators' preliminary work in this area has shown patients requiring lower pressures to restore airflow experience improved outcomes with neurostimulation surgery. Their overall hypothesis is that upper airway pressure-flow/area relationships can be used to predict response to all 3 major classes of sleep surgery: skeletal, neurostimulation, and soft tissue. They will address this hypothesis by characterizing upper airway pressure-flow and pressure-area relationships while utilizing objective anatomic measurements from CT and ultrasound. These findings will allow investigators to streamline the upper airway exam during DISE, and will further the goal of developing personalized solutions that address specific pathogenic mechanisms of pharyngeal collapse and airflow obstruction during sleep.
Eligibility
Inclusion Criteria:
- Adults (≥ 18yrs) willing and capable of providing informed consent.
- English-speaking & able to give Informed Consent.
- Referred or scheduled for clinically indicated DISE procedure.
- Seeking CPAP alternatives for treatment of sleep disordered breathing.
Exclusion Criteria:
- None