The endotracheal tube biases the estimates of pulmonary recruitment and overdistension
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Med Bio Eng Comput
Abstract
To assess the impact of the endotracheal tube
(ETT) and of different flow waveforms on estimates of
alveolar cyclic recruitment (CR) and overdistension (AO).
Numerical simulation of the respiratory system plus ETT
(inertance L plus a flow-dependent resistance, K1 and K2),
with the following non-linear equation of motion
PAWðtÞ ¼ K1 þ K2 V_ðtÞ
V_ðtÞ þ L V€ðtÞ
þ Rrs V_ðtÞ þ ð Þ E1 þ E2 VðtÞ VðtÞ þ P0
(PAW pressure at the airways opening, V volume), under
volume-controlled mechanical ventilation. An index
%E2 = 100 (E2 VT)/(E1 + E2 VT) can be calculated where
%E2[ 30% represents AO and %E2\ 0% represents CR.
Parameters were estimated by the least-squares method,
either with the complete equation or supressing L, K2 or
both. %E2 is always underestimated (down to –152 percent
points) with incomplete equations of motion. The estima tion of %E2 may be strongly biased in the presence of an
ETT excluded from the estimation mode
Description
p. 69–73.: il. p&b.
Citation
TAVARES, Frederico Caetano Jandre de Assis et al. The endotracheal tube biases the estimates of pulmonary recruitment and overdistension. Med Bio Eng Comput., v. 46, p. 69–73, 2008.