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Assessment of air space size characteristics by intercept (chord) measurement: an accurate and efficient stereological approach

2009; American Physiological Society; Volume: 108; Issue: 2 Linguagem: Inglês

10.1152/japplphysiol.01100.2009

8750-7587

Lars Knudsen, Ewald R. Weibel, Hans Jørgen G. Gundersen, F. V. Weinstein, Matthias Ochs,

Neonatal Respiratory Health Research

The mean linear intercept (chord) length ( L m ) is a useful parameter of peripheral lung structure as it describes the mean free distance in the air spaces. It is often misinterpreted as a measure of “alveolar size,” and its estimation is fraught with a number of pitfalls. We present two methods for the accurate estimation of L m : 1) the indirect method, which derives L m from the volume-to-surface ratio of air spaces estimated by point counting methods, and 2) the direct method, which uses a set of random intercepts and calculates L m from their frequency distribution, for which we introduce a new and accurate method. Both methods are efficient and, with proper precautions, unbiased. The meaning of L m is assessed in two different examples. In a physiological study, the effect of different inflation levels is studied, showing that L m critically depends on lung inflation. In an experimental study on emphysema-like changes in a genetic mouse model, the effect of heterogeneity of air space size is assessed; these results are obtained partly because of differences in lung volume due to altered recoil in the emphysematous lungs. In conclusion, although L m is not a robust parameter of internal lung structure because it crucially depends on lung volume, it is still a valid measure for which accurate and efficient methods are available that yield additional parameters such as size distribution or alveolar surface area.