We studied dogs with unilateral papain-induced emphysema to answer two
questions: (1) Do emphysema lung-apposed hemidiaphragm (Di(E)) and no
rmal lung-apposed hemidiaphragm (Di(N)) have equal capacities for lowe
ring lung surface pressure? and (2) Are side-to-side differences in in
trathoracic pressure the result of unequal force outputs by Di(E) and
Di(N) or are they caused by differences in their mechanical efficiency
as pressure generators? After the airways of the emphysematous and no
rmal lungs were intubated with a dual lumen endotracheal tube, both ph
renic nerves were maximally stimulated at rates between 1 and 50 Hz an
d the changes in airway occlusion pressure (DELTAPao(E,N)) and diaphra
gm length (sonomicrometry) were recorded. In all animals, DELTAPao(N)
exceeded DELTAPao(E). Differences in pressure ranged from 1.2+/-0.6 cm
H2O during a twitch to 6.0+/-2.9 cm H2O during a 50-Hz tetanus. Midco
stal bundles of Di(E) shortened less than corresponding bundles of Di(
N), but both reached the same active length relative to their optimal
lengths, which were measured in vitro. There was no significant differ
ence in fiber type distribution, fiber cross-sectional area, or maxima
l isometric tetanic tensions among midcostal regions of Di(E) and Di(N
). We conclude that unilateral hyperinflation impairs the mechanical e
fficiency of the apposing hemidiaphragm as a pressure generator.