Litcius/Paper detail

Nasal nitric oxide flux from the paranasal sinuses

Barak M. Spector, Dennis Shusterman, Kai Zhao

2022Current Opinion in Allergy and Clinical Immunology13 citationsDOIOpen Access PDF

Abstract

PURPOSE OF REVIEW: Upper airway nitric oxide (NO) is physiologically important in airway regulation and defense, and can be modulated by various airway inflammatory conditions, including allergic rhinitis and chronic rhinosinusitis - with and without polyposis. Paranasal sinuses serve as a NO 'reservoir', with concentrations typically exceeding those measured in lower airway (fractional exhaled NO or FeNO) by a few orders of magnitude. However, the dynamics of NO flux between the paranasal sinuses and main nasal airway, which are critical to respiratory NO emission, are poorly understood. RECENT FINDINGS: Historically, NO emissions were thought to be contributed mostly by the maxillary sinuses (the largest sinuses) and active air movement (convection). However, recent anatomically-accurate computational modeling studies based on patients' CT scans showed that the ethmoid sinuses and diffusive transport dominate the process. SUMMARY: These new findings may have a substantial impact on our view of nasal NO emission mechanisms and sinus physiopathology in general.

Topics & Concepts

Paranasal sinusesMedicineExhaled nitric oxideAirwaySinusitisMucociliary clearanceSinus (botany)Chronic rhinosinusitisMaxillary sinusPathologyLungAnesthesiaImmunologyAnatomyInternal medicineGenusBronchoconstrictionBotanyBiologySinusitis and nasal conditionsNitric Oxide and Endothelin EffectsNasal Surgery and Airway Studies
Nasal nitric oxide flux from the paranasal sinuses | Litcius