Title :
Modeling of forced expired volume signals with multiexponential functions
Author :
Steltner, H. ; Vogel, M. ; Timmer, J. ; Sorichter, S. ; Guttmann, J.
Author_Institution :
Centre for Data Anal. & Modeling, Freiburg Univ., Germany
Abstract :
Forced expiration is a widely applied clinical test in respiratory medicine. Some patients with respiratory complaints have difficulties completing the manoeuvre. The suitability of multi-exponential models for characterizing the expired volume as a function of time was investigated. In 32 of 33 cases, the sum of two exponentials resulted in a satisfactory description of the volume time series, one time series was adequately described by a monoexponential function. Using mono- and biexponential models, forced vital capacity FVC was predicted from the first 4 s of the 33 time series. Monoexponential fits systematically overestimated FVC whereas biexponential fits provided unbiased estimations of FVC. Including the fitting procedure into the analysis of spirograms, forced expiration manoeuvres could be shortened by several seconds
Keywords :
biomedical measurement; physiological models; pneumodynamics; time series; volume measurement; 4 s; biexponential model; forced expired volume signals modeling; forced vital capacity; monoexponential fits; monoexponential mode; multiexponential functions; respiratory medicine; spirograms analysis; spirometry; widely applied clinical test; Diseases; Force measurement; Lungs; Medical tests; Predictive models; Public healthcare; Reproducibility of results; Testing; Time measurement; Volume measurement;
Conference_Titel :
Engineering in Medicine and Biology Society, 2000. Proceedings of the 22nd Annual International Conference of the IEEE
Conference_Location :
Chicago, IL
Print_ISBN :
0-7803-6465-1
DOI :
10.1109/IEMBS.2000.900825
