Pulmonary blood flow remains fractal down to the level of gas exchange

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Pulmonary blood flow remains fractal down to the level of gas exchange

Robb W. Glenny¹^,², Susan L. Bernard¹, and H. Thomas Robertson¹^,²

Departments of ¹ Medicine and ² Physiology and Biophysics, University of Washington, Seattle, Washington 98195

The spatial distribution of pulmonary blood flow is increasingly heterogeneous as progressively smaller lung regions areexamined. To determine the extent of perfusion heterogeneity atthe level of gas exchange, we studied blood flow distributionsin rat lungs by using an imaging cryomicrotome. Approximately150,000 fluorescent 15-µm-diameter microspheres were injectedinto tail veins of five awake rats. The rats were heavily anesthetized;the lungs were removed, filled with an optimal cutting tissuecompound, and frozen; and the spatial location of every microspherewas determined. The data were mathematically dissected with theuse of an unbiased random sampling method. The coefficients ofvariation of microsphere distributions were determined at varyingsampling volumes. Perfusion heterogeneity increased linearly ona log-log plot of coefficient of variation vs. volume, down tothe smallest sampling size of 0.53 mm³. The average fractal dimension, a scale-independent measure ofperfusion distribution, was 1.2. This value is similar to thatof other larger species such as dogs, pigs, and horses. Pulmonaryperfusion heterogeneity increases continuously and remains fractaldown to the acinar level. Despite the large degree of perfusionheterogeneity at the acinar level, gases are efficientlyexchanged.

pulmonary perfusion; heterogeneity; spatial distribution; rats

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				M. F. Vidal Melo, D. Layfield, R. S. Harris, K. O'Neill, G. Musch, T. Richter, T. Winkler, A. J. Fischman, and J. G. Venegas Quantification of Regional Ventilation-Perfusion Ratios with PET J. Nucl. Med., December 1, 2003; 44(12): 1982 - 1991. [Abstract] [Full Text] [PDF]

				R. Karch, F. Neumann, B. K. Podesser, M. Neumann, P. Szawlowski, and W. Schreiner Fractal Properties of Perfusion Heterogeneity in Optimized Arterial Trees: A Model Study J. Gen. Physiol., August 25, 2003; 122(3): 307 - 322. [Abstract] [Full Text] [PDF]

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