Literature DB >> 22011236

Computational modeling of airway and pulmonary vascular structure and function: development of a "lung physiome".

Merryn Tawhai1, A Clark, G Donovan, K Burrowes.   

Abstract

Computational models of lung structure and function necessarily span multiple spatial and temporal scales, i.e., dynamic molecular interactions give rise to whole organ function, and the link between these scales cannot be fully understood if only molecular or organ-level function is considered. Here, we review progress in constructing multiscale finite element models of lung structure and function that are aimed at providing a computational framework for bridging the spatial scales from molecular to whole organ. These include structural models of the intact lung, embedded models of the pulmonary airways that couple to model lung tissue, and models of the pulmonary vasculature that account for distinct structural differences at the extra- and intra-acinar levels. Biophysically based functional models for tissue deformation, pulmonary blood flow, and airway bronchoconstriction are also described. The development of these advanced multiscale models has led to a better understanding of complex physiological mechanisms that govern regional lung perfusion and emergent heterogeneity during bronchoconstriction.

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Year:  2011        PMID: 22011236      PMCID: PMC3215333          DOI: 10.1615/critrevbiomedeng.v39.i4.50

Source DB:  PubMed          Journal:  Crit Rev Biomed Eng        ISSN: 0278-940X


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