It measures around 500 mL in an average healthy adult male and approximately 400 mL in a healthy female. All three dead spaces-physiologic, anatomical, and alveolar-together with their relations to expired volume, can be displayed conveniently on the x-axis of a carbon dioxide expirogram.Tidal volume is the amount of air that moves in or out of the lungs with each respiratory cycle. The authors' equal area method for calculating, displaying, and visualizing physiologic dead space is easy to understand and yields the same results as the classic Bohr-Enghoff equation and Fletcher area method. The mean difference between new equal area method and the Fletcher area method was -0.09 ml (-1.52 to 1.34 ml). The mean difference (limits of agreement) between the physiologic dead spaces calculated by the new equal area method and Bohr-Enghoff equation was -0.07 ml (-1.27 to 1.13 ml). The new graphical equal area method for calculating physiologic dead space is shown analytically to be identical to the Bohr-Enghoff calculation. ![]() Dead space was varied by varying tidal volume, end-expiratory pressure, inspiratory-to-expiratory ratio, and inspiratory hold in each patient. Physiologic dead spaces of 1,200 carbon dioxide expirograms obtained from 10 ventilated patients were calculated by the Bohr-Enghoff equation, the Fletcher area method, and the new graphical equal area method and were compared by Bland-Altman analysis. This study introduces a graphical method that uses similar principles for measuring and displaying anatomical, physiologic, and alveolar dead spaces.Ī new graphical equal area method for estimating physiologic dead space is derived. Alveolar dead space is calculated as the difference between anatomical dead space estimated by the Fowler equal area method and physiologic dead space. Physiologic dead space is usually estimated by the Bohr-Enghoff equation or the Fletcher method.
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