Airway volume, airway resistance, and work and force of breathing: theory

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J Appl Physiol 18: 863-868, 1963;
8750-7587/63 $5.00

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Airway volume, airway resistance, and work and force of breathing: theory

J. G. Widdicombe ¹ and Jay A. Nadel ¹

¹ University Laboratory of Physiology, Oxford, England, and Cardiovascular Research Institute, University of California Medical Center, San Francisco, California

Equations for optimal frequencies of breathing at which mechanicalwork and mean inspiratory force are minimal and which assumedead space and resistance are constant ignore possible changesin airway caliber. We assumed an inverse relationship betweenresistance and dead space and plotted a series of curves relatingmechanical work and mean inspiratory force to frequency of breathingfor various dead spaces and corresponding resistances. As deadspace increases, the levels of work and inspiratory force fallto minima, then rise; the frequencies at which work and forceare minimal increase, then decrease. Adding a series resistanceor dead space, changing the resistance/dead space relationship,decreasing lung compliance, or increasing alveolar ventilationdo not alter the general shapes of the curves, but change thevalues of optimal dead space. The optimal dead spaces for minimalwork (0.125 liter) and for minimal inspiratory force (0.14 liter)lie within the normal range. Nervously mediated airway tonein healthy subjects may represent optimal adjustment of airwaycaliber.

dead space, optimal; bronchial caliber

Submitted on October 26, 1962

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