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Respiratory system modelling and simulation based on the forced oscillation technique

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Języki publikacji
EN
Abstrakty
EN
Conventional methods of testing lung functioning demand a specific respiratory action of the patient. In contrast, the forced oscillation technique (FOT) provides measurements obtained with a minimal cooperation of the subject. The aim of this study is to verify the usefulness of the forced oscillation technique modelling in respiratory system diagnosing. In order to do this two models of FOT measurements have been considered: the four-parameter model (4p) and the six-parameter model (6p). The question is whether the models' parameter estimates can be accepted for diagnostic purposes. To answer the question the parameter estimates and their precision were calculated and the results obtained were confronted with the parameter values in population of healthy patients and for patients with lung diseases. The results obtained showed that the FOT measurements and modelling allow us to achieve such parameter estimates that could be applied for diagnostic purposes. Precision and accuracy of the parameter estimates are sufficiently good for unmistakable distinguishing between healthy and diseased subjects.
Słowa kluczowe
Czasopismo
Rocznik
Strony
75--82
Opis fizyczny
Bibliogr. 16 poz., wykr.
Twórcy
autor
autor
Bibliografia
  • [1] Cavalcanti J., Lopes A., Jansen J., Alterations in respiratory mechanics resulting from the progression of airway obstruction in asthmatic subjects analyzed by the forced oscillation technique, Chest, No. 124, 2003, pp. 12-16.
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  • [3] Kalicka R., Słomiński W., Kuziemski K., Wspomaganie diagnostyki układu oddechowego przez modelowanie parametrów respiracji metodą oscylacji wymuszonych, [in:] Inteligentne wydobywanie informacji w celach diagnostycznych, PWNT, Gdańsk, 2007, pp. 323-340.
  • [4] Kalicka R., Słomiński W., Kuziemski K., Komputerowe wspomaganie diagnostyki układu oddechowego człowieka, Proc. PTETiS XVII Zastosowanie komputerów w nauce i technice 2007, Gdańsk, 2007.
  • [5] Khoo M., Physiological Control Systems, IEEE Press Series in Biomedical Engineering, New York, 2000.
  • [6] Kowalski J., Kosiorowski A., Radwan L., Ocena czynności płuc w chorobach układu oddechowego, BORGIS, Warszawa, 2004.
  • [7] Lorino A., Lofaso F., Lorin H., Changes in respiratory resistance to low dose carbachol inhalation and to pneumatic trouser inflation are correlated, European Respiratory Journal, No. 7, 1994, pp. 2000-2004.
  • [8] Marchal F., Mazurek H., Habib M., Input respiratory impedance to estimate airway hyper reactivity in children: standard method versus head generator, European Respiratory Journal, No. 7, 1994, pp. 601-607.
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  • [10] Oostveen E., Macleod D., Lorino H., The forced oscillation technique in clinical practise: methodology, recommendations and future developments, European Respiratory Journal, No. 22, 2003, pp. 1026-1041.
  • [11] Peclin R., Jardin P., Duviver C., Begin P., Inn-phase requirements for measuring respiratory input impedance, Journal of Applied Physiology, No. 56, 1984, pp. 804-809.
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  • [13] Tomalak W., Peslin R., Duviver C., Respiratory tissue properties derived from flow transfer function in healthy humans, Journal of Applied Physiology, No. 82, 1997, pp. 1098-1106.
  • [14] Tomalak W., Peslin R., Duviver C., Variations in airways impedance during respiratory cycle derived from combined measurements of input and transfer impedances, European Respiratory Journal, No. 12, 1998, pp. 1436-1441.
  • [15] www.summittechnologies.ca.
  • [16] www.viasyshealthcare.com.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT5-0033-0065
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