Determination of regional ventilation and perfusion in the lung using xenon and computed tomography

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Determination of regional ventilation and perfusion in the lung using xenon and computed tomography

Thomas C. Kreck¹, Melissa A. Krueger¹, William A. Altemeier¹, Scott E. Sinclair¹, H. Thomas Robertson¹^,², Erin D. Shade¹, Jacob Hildebrandt¹^,², Wayne J. E. Lamm¹, David A. Frazer¹, Nayak L. Polissar³, and Michael P. Hlastala¹^,²

Departments of ¹ Medicine and ² Physiology and Biophysics, University of Washington, Seattle 98195-6522; and ³ Mountain-Whisper-Light Statistical Consulting, Seattle, Washington 98112

We propose a model to measure both regional ventilation ( $V$ ) and perfusion ( $Q$ ) in which the regional radiodensity (RD) inthe lung during xenon (Xe) washin is a function of regional $V$ (increasing RD) and $Q$ (decreasing RD). We studied five anesthetized,paralyzed, mechanically ventilated, supine sheep. Four 2.5-mm-thickcomputed tomography (CT) images were simultaneously acquired immediatelycephalad to the diaphragm at end inspiration for each breath during3 min of Xe breathing. Observed changes in RD during Xe washinwere used to determine regional $V$ and $Q$ . For 16 mm³, $Q$ displayed more variance than $V$ : the coefficient of varianceof $Q$ (CV) = 1.58 ± 0.23, the CVof $V$ (CV) = 0.46 ± 0.07, and theratio of CV to CV= 3.5 ± 1.1. CV (1.21 ± 0.37) andthe ratio of CV to CV(2.4 ± 1.2) were smaller at 1,000-mm³ scale, but CV (0.53 ± 0.09) wasnot. $V$ / $Q$ distributions also displayed scale dependence: logSD of $V$ and log SD of $Q$ were 0.79 ± 0.05 and 0.85 ± 0.10 for16-mm³ and 0.69 ± 0.20 and 0.67 ± 0.10 for 1,000-mm³ regions of lung, respectively. $V$ and $Q$ measurements made withCT and Xe also demonstrate vertically oriented and isogravitationalheterogeneity, which are described using other methodologies.Sequential images acquired by CT during Xe breathing can be usedto determine both regional $V$ and $Q$ noninvasively with high spatialresolution.

functional imaging; in vivo imaging; gas exchange; blood solubility; recirculation

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