Mathematical model for preoperative identification of obstructed nasal subsites.

Mathematical model for preoperative identification of obstructed nasal subsites. Acta Otorhinolaryngol Ital. 2017 May 22;: Authors: Gamerra M, Cantone E, Sorrentino G, De Luca R, Russo MB, De Corso E, Bossa F, De Vivo A, Iengo M Abstract The planning of experimental studies for evaluation of nasal airflow is particularly challenging given the difficulty in obtaining objective measurements in vivo. Although standard rhinomanometry and acoustic rhinometry are the most widely used diagnostic tools for evaluation of nasal airflow, they provide only a global measurement of nasal dynamics, without temporal or spatial details. Furthermore, the numerical simulation of nasal airflow as computational fluid dynamics technology is not validated. Unfortunately, to date, there are no available diagnostic tools to objectively evaluate the geometry of the nasal cavities and to measure nasal resistance and the degree of nasal obstruction, which is of utmost importance for surgical planning. To overcame these limitations, we developed a mathematical model based on Bernoulli's equation, which allows clinicians to obtain, with the use of a particular direct digital manometry, pressure measurements over time to identify which nasal subsite is obstructed. To the best of our knowledge, this is the first study to identify two limiting curves, one below and one above an average representative curve, describing the time dependence of the gauge pressure inside...
Source: Acta Otorhinolaryngologica Italica - Category: ENT & OMF Tags: Acta Otorhinolaryngol Ital Source Type: research
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