Fluid dynamics approach to airway obstruction

Norihiko Tsuboi; Shotaro Matsumoto; Nao Nishimura; Satoshi Nakagawa; Hisato Kobayashi

doi:10.1016/j.mehy.2019.109341

Fluid dynamics approach to airway obstruction

Med Hypotheses. 2019 Nov:132:109341. doi: 10.1016/j.mehy.2019.109341. Epub 2019 Jul 30.

Authors

Norihiko Tsuboi¹, Shotaro Matsumoto², Nao Nishimura², Satoshi Nakagawa², Hisato Kobayashi²

Affiliations

¹ Critical Care Medicine, National Center for Child Health and Development, Japan. Electronic address: tsuboi-n@ncchd.go.jp.
² Critical Care Medicine, National Center for Child Health and Development, Japan.

PMID: 31421427
DOI: 10.1016/j.mehy.2019.109341

Abstract

Background: Fluid dynamics theory, which is a fundamental underlying concept applied to fluid management, has not been introduced to analyze the human respiratory system. We hypothesized that one of the potential mechanisms that promotes airflow limitation in patients with airway obstructive disease would be elucidated by using fluid dynamics theory.

Methods: We calculated the values of pressure loss and static pressure change under virtual tracheal stenotic conditions using the fluid dynamics approach.

Results: Under normal conditions, the absolute values of pressure loss and static pressure change are very low. However, once airway stenosis occurs, it is confirmed that they would be dramatically elevated.

Conclusions: The fluid dynamics approach to airway obstruction is very constructive. The treatment strategy for airway obstruction and the reasons for airflow limitation are well explained by using this approach.

MeSH terms

Airway Obstruction / physiopathology*
Biomechanical Phenomena
Constriction, Pathologic
Humans
Hydrodynamics*
Infant
Lung / physiology
Pressure
Pulmonary Gas Exchange
Respiration
Trachea / physiology*