Aerodynamic Influences on Nasal Nitric Oxide Output Measurements

Nitric oxide (NO) concentration in aspirated nasal air is flow-dependent. Nasal NO outputs calculated from steady-state plateaux at flows < 1 l/min are substantially smaller than those at flows > 2 l/min. This study aimed to determine the differences in NO output as calculated from the NO concentration plateaux in aspirated nasal air, resulting from different aspiration flows. Nasal NO was determined by chemiluminescent analysis of air obtained from the nasal passages in series during velopharyngeal closure in 8 healthy adults (flows: 0.2-3.7 l/min) and 5 with symptomatic allergic rhinitis (flows: 0.2-3.7 l/min). Mean NO output in the healthy subjects was stable at approximately 315 nl/l/min at flows of 0.2-0.7 l/min, and increased to a second steady output level of approximately 400 nl/l/min (+28%, p < 0.0001) at more physiological flow rates of 2.7 l/min and higher. The symptomatic subjects had substantially higher NO output at all flows (p < 0.001) (709.3 nl/min at 3.7 l/min) than the non-allergic subjects. The flow dependency of the nasal NO output may be explained by failure at low flows for the air stream to penetrate the peripheral parts of the complex nasal passages, and by the presence of a laminar flow regime in which a marginal lamina would tend to insulate the main stream from the mucosa. Thus, previously reported NO outputs obtained at low flows may underestimate nasal NO output compared to output at higher and more physiological transnasal airflow rates, thus affecting interpretation of results.