Avalanches in the lung: A statistical mechanical model

A. B. H. Crawford; A. Bunde; Albert-László Barabási; B. J. West; B. Suki; Béla Suki; D. P. Gaver; F. Peták; G. Grinstein; H. Eugene Stanley; J. B. Bassingthwaighte; J. Essam; K. G. Horsfield; L. A. Engel; M. F. Shlesinger; Sergey V. Buldyrev; T. E. Harris

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Avalanches in the lung: A statistical mechanical model

Authors: A. B. H. Crawford
A. Bunde
Albert-László Barabási
B. J. West
B. Suki
Béla Suki
D. P. Gaver
F. Peták
G. Grinstein
H. Eugene Stanley
J. B. Bassingthwaighte
J. Essam
K. G. Horsfield
L. A. Engel
M. F. Shlesinger
Sergey V. Buldyrev
T. E. Harris
Publication date: 8 February 1996
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We study a statistical mechanical model for the dynamics of lung inflation which incorporates recent experimental observations on the opening of individual airways by a cascade or avalanche mechanism. Using an exact mapping of the avalanche problem onto percolation on a Cayley tree, we analytically derive the exponents describing the size distribution of the first avalanches and test the analytical solution by numerical simulations. We find that the tree-like structure of the airways together with the simplest assumptions concerning opening threshold pressures of each airway, is sufficient to explain the existence of power-law distributions observed experimentally.Comment: 4 pages, Figures avaliable by mail from [email protected], REVTE

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