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A Measure for Characterizing Sliding on Lung Boundaries

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Abstract

The lobes of the lung slide relative to each other during breathing. Quantifying lobar sliding can aid in better understanding lung function, better modeling of lung dynamics, and for studying phenomenon such as pleural adhesion. We propose a novel measure to characterize lobe sliding in the lung based on the displacement field obtained from image registration of CT scans. When two sliding lobes are modeled as a continuum, the discontinuity in the displacement field at the fissure will manifest as elevated maximum shear—the proposed measure—which is capable of capturing both the level and orientation of sliding. Six human lungs were analyzed using scans spanning functional residual capacity to total lung capacity. The lung lobes were segmented and registered on a lobe-by-lobe basis to obtain the displacement field from which the proposed sliding measure was calculated. The sliding measure was found to be insignificant in the parenchyma, as relatively little tissue shear occurs here. On the other hand, it was elevated along the fissures. Thus, a map of the proposed sliding measure of the entire lung clearly delineates and quantifies sliding between lung lobes. Sliding is a key aspect of lung deformation during breathing. The proposed measure may help resolve artifacts introduced by sliding in deformation analysis techniques used for radiotherapy.

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Abbreviations

RL:

Right lower (lobe)

RM:

Right middle (lobe)

RU:

Right upper (lobe)

LL:

Left lower (lobe)

LU:

Left upper (lobe)

γ max :

Sliding measure

IGRT:

Image guided radiotherapy

FEM:

Finite element modeling

DIR:

Deformable image registration

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Acknowledgments

This work was supported in part by NIH Grant HL079406 (to JMR).

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Authors and Affiliations

  1. Department of Biomedical Engineering, University of Iowa, 1136 Seamans Center, Iowa City, IA, 52242, USA

    Ryan E. Amelon, Joseph M. Reinhardt & Madhavan L. Raghavan

  2. Department of Electrical and Computer Engineering, The University of Iowa, Iowa City, IA, USA

    Kunlin Cao & Gary E. Christensen

Authors
  1. Ryan E. Amelon
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  2. Kunlin Cao
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  3. Joseph M. Reinhardt
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  4. Gary E. Christensen
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  5. Madhavan L. Raghavan
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Corresponding author

Correspondence to Madhavan L. Raghavan.

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Associate Editor Joel D. Stitzel oversaw the review of this article.

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Amelon, R.E., Cao, K., Reinhardt, J.M. et al. A Measure for Characterizing Sliding on Lung Boundaries. Ann Biomed Eng 42, 642–650 (2014). https://doi.org/10.1007/s10439-013-0920-5

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  • DOI: https://doi.org/10.1007/s10439-013-0920-5

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