Simple parametrizations of maximum expiratory flow-volume curves

A rn~t~at~ca~ simu~tion of the m~x~murn ex~.r~to~ fkm+volume (MEFV) curve was beamed using a lumped ~~r~~&~ rno~~. TRe model uses a theoretical ~~~irn~t~~ of an titivation function r~~s~t~ng the hngk ~essure-ualu~ re~t~onsh~p du~ng rn~x~rn~~y forced ex~~r~t~~. The wavef~ obt~~~d by the mo~l wefio co

Partial expiratory flow-volume (PEFV) curves are a useful tool in airway challenge studies, but unlike the maximal expiratory flow-volume (MEFV) curve, lung function parameters require manual calculation from the flow-volume tracing. We describe an algorithm written in QuickBASIC that analyzes a PEF

## New lung function indices based on a lumped parameter model of the maximal expiratory flow-volume (MEFV) curve are presented. The waveforms obtained by the model were compared to the flow-volume curves recorded from normal subjects and from patients with small airways disease, asthma and emphys

The end-tidal rapid thoracoabdominal compression (ETRTC) technique is an established method for lung function testing in infancy. Previous work in healthy infants, however, has shown that measurements with the newly developed raised volume rapid thoracoabdominal compression (RVRTC) technique are mor