Tracking of airway and tissue mechanics during TLC maneuvers in mice

doi:10.1152/japplphysiol.00104.2003

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Tracking of airway and tissue mechanics during TLC maneuvers in mice

Zoltán Hantos,¹^,2 Rachel A. Collins,² Debra J. Turner,² Tibor Z. Jánosi,¹ and Peter D. Sly²

¹Department of Medical Informatics and Engineering, University of Szeged, H-6720 Szeged, Hungary; and ²Telethon Institute for Child Health Research and Centre for Child Health Research, University of Western Australia, Perth 6008, Australia

Submitted 1 February 2003 ; accepted in final form 27 May 2003

A tracking impedance estimation technique was developed to followthe changes in total respiratory impedance (Zrs) during slowtotal lung capacity maneuvers in six anesthetized and mechanicallyventilated BALB/c mice. Zrs was measured with the wave-tubetechnique and pseudorandom forced oscillations at nine frequenciesbetween 4 and 38 Hz during inflation from a transrespiratorypressure of 0-20 cmH₂O and subsequent deflation, each lastingfor $~$ 20 s. Zrs was averaged for 0.125 s and fitted by a modelfeaturing airway resistance (Raw) and inertance, and tissuedamping and elastance (H). Lower airway conductance (Glaw) waslinearly related to volume above functional residual capacity(V) between 0 and 75-95% maximum V, with a mean slope of dGlaw/dV= 13.6 ± 4.6 cmH₂O^-1 · s^-1. The interdependenceof Raw and H was characterized by two distinct and closely linearrelationships for the low- and high-volume regions, separatedat $~$ 40% maximum V. Comparison of Raw with the highest-frequencyresistance of the total respiratory system revealed a markedvolume-dependent contribution of tissue resistance to totalrespiratory system resistance, resulting in the overestimationof Raw by 19 ± 8 and 163 ± 40% at functional residualcapacity and total lung capacity, respectively, whereas thelowest frequency reactance was proportional to H; these findingsindicate that single-frequency resistance values may becomeinappropriate as surrogates of Raw when tissue impedance ischanging.

airway resistance; tissue elastance; forced oscillations; volume dependence; total lung capacity

Address for reprint requests and other correspondence: Z. Hantos, Dept. of Medical Informatics, Univ. of Szeged, Korányi fasor 9, H-6720 Szeged, Hungary (E-mail: hantos{at}dmi.u-szeged.hu).

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