Computation (Dec 2016)

Critical Issues in Modelling Lymph Node Physiology

  • Dmitry Grebennikov,
  • Raoul van Loon,
  • Mario Novkovic,
  • Lucas Onder,
  • Rostislav Savinkov,
  • Igor Sazonov,
  • Rufina Tretyakova,
  • Daniel J. Watson,
  • Gennady Bocharov

DOI
https://doi.org/10.3390/computation5010003
Journal volume & issue
Vol. 5, no. 1
p. 3

Abstract

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In this study, we discuss critical issues in modelling the structure and function of lymph nodes (LNs), with emphasis on how LN physiology is related to its multi-scale structural organization. In addition to macroscopic domains such as B-cell follicles and the T cell zone, there are vascular networks which play a key role in the delivery of information to the inner parts of the LN, i.e., the conduit and blood microvascular networks. We propose object-oriented computational algorithms to model the 3D geometry of the fibroblastic reticular cell (FRC) network and the microvasculature. Assuming that a conduit cylinder is densely packed with collagen fibers, the computational flow study predicted that the diffusion should be a dominating process in mass transport than convective flow. The geometry models are used to analyze the lymph flow properties through the conduit network in unperturbed- and damaged states of the LN. The analysis predicts that elimination of up to 60%–90% of edges is required to stop the lymph flux. This result suggests a high degree of functional robustness of the network.

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