Detail publikace

Aplikace statistických metod pro analýzu proudění v lidských dýchacích cestách

LÍZAL, F. FUSEK, M. JEDELSKÝ, J. JÍCHA, M.

Originální název

Application of statistical methods in human airway flow analysis

Český název

Aplikace statistických metod pro analýzu proudění v lidských dýchacích cestách

Anglický název

Application of statistical methods in human airway flow analysis

Typ

článek ve sborníku

Jazyk

en

Originální abstrakt

Understanding of the air flow in human airways is the cornerstone for targeted delivery of a medication to the lungs. Direct in-vivo measurement in lungs is complicated; therefore in-vitro measurements in human lung models are frequently performed employing optical measurement methods. Irregularly sampled data acquired by Phase Doppler Anemometry in various locations of a model of human lungs for different breathing conditions were statistically processed to facilitate comparison and influence of diverse factors on the lung airflow. Tests based on signs of differences, Kendall s rank correlation coefficient test and Spearman s rank correlation coefficient test were used to detect a linear trend between the samples,while a median test of randomness and a turning point test were used to detect differences of a periodical nature. The presented statistical tools allow detection of inter-cycle variability in velocity course as well as evaluation of the influence of breathing pattern change or gradual flow development in an airway. Application of the above mentioned methods on our data confirmed the essential influence of lung geometry on flow profiles and revealed remarkable flow behaviour in the main bronchi. Usability of the statistical tools is not limited to measurements in human lung models, but can be extended to any flow measurements, for comparison of irregularly and regularly sampled data and also for comparison of numerical simulations with experiments.

Český abstrakt

Porozumění prudění v lidských dýchacích cestách je zásadním předpokladem pro efektivní cílenou dodávku léčiv do plic. Přímé měření in-vivo je komplikované, proto se nejčastěji volí přístup in-vitro, na modelech lidských plic. Článek se zabývá využitím statistických metod pro analýzu neekvidistantně vzorkovaných dat s komplikovaným průběhem, jaké vznikají např. při měření proudění aerosolu v lidských dýchacích cestách. Ve článku je představena metoda pro úpravu, normování a škálování datových souborů a jejich analýzu pomocí 5 různých statistických testů.

Anglický abstrakt

Understanding of the air flow in human airways is the cornerstone for targeted delivery of a medication to the lungs. Direct in-vivo measurement in lungs is complicated; therefore in-vitro measurements in human lung models are frequently performed employing optical measurement methods. Irregularly sampled data acquired by Phase Doppler Anemometry in various locations of a model of human lungs for different breathing conditions were statistically processed to facilitate comparison and influence of diverse factors on the lung airflow. Tests based on signs of differences, Kendall s rank correlation coefficient test and Spearman s rank correlation coefficient test were used to detect a linear trend between the samples,while a median test of randomness and a turning point test were used to detect differences of a periodical nature. The presented statistical tools allow detection of inter-cycle variability in velocity course as well as evaluation of the influence of breathing pattern change or gradual flow development in an airway. Application of the above mentioned methods on our data confirmed the essential influence of lung geometry on flow profiles and revealed remarkable flow behaviour in the main bronchi. Usability of the statistical tools is not limited to measurements in human lung models, but can be extended to any flow measurements, for comparison of irregularly and regularly sampled data and also for comparison of numerical simulations with experiments.

Klíčová slova

analýza proudění, lidské dýchací cesty, plíce, průtok plicemi, statistická analýza, měření proudění

Rok RIV

2012

Vydáno

25.06.2012

Nakladatel

WIT Press

Místo

Ashurst, Southampton, UK

ISBN

9781845646004

Kniha

9th International Conference on Advances in Fluid Mechanics - Advances in Fluid Mechanics IX

Strany od

571

Strany do

583

Strany počet

13

BibTex


@inproceedings{BUT92801,
  author="František {Lízal} and Michal {Fusek} and Jan {Jedelský} and Miroslav {Jícha}",
  title="Application of statistical methods in human airway flow analysis",
  annote="Understanding of the air flow in human airways is the cornerstone for targeted delivery of a medication to the lungs. Direct in-vivo measurement in lungs is complicated; therefore in-vitro measurements in human lung models are frequently performed employing optical measurement methods. Irregularly sampled data acquired by Phase Doppler Anemometry in various locations of a model of human lungs for different breathing conditions were statistically processed to facilitate comparison and influence of diverse factors on the lung airflow. Tests based on signs of differences, Kendall s rank correlation coefficient test and Spearman s rank correlation coefficient test were used to detect a linear trend between the samples,while a median test of randomness and a turning point test were used to detect differences of a periodical nature. The presented statistical tools allow detection of inter-cycle variability in velocity course as well as evaluation of the influence of breathing pattern change or gradual flow development in an airway. Application of the above mentioned methods on our data confirmed the essential influence of lung geometry on flow profiles and revealed remarkable flow behaviour in the main bronchi. Usability of the statistical tools is not limited to measurements in human lung models, but can be extended to any flow measurements, for comparison of irregularly and regularly sampled data and also for comparison of numerical simulations with experiments.",
  address="WIT Press",
  booktitle="9th International Conference on Advances in Fluid Mechanics - Advances in Fluid Mechanics IX",
  chapter="92801",
  doi="10.2495/AFM120491",
  howpublished="online",
  institution="WIT Press",
  number="2",
  year="2012",
  month="june",
  pages="571--583",
  publisher="WIT Press",
  type="conference paper"
}