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Peristaltic regimes in esophageal transport.

Guy ElishaShashank AcharyaSourav HalderDustin A CarlsonWenjun KouPeter J KahrilasJohn E PandolfinoNeelesh A Patankar
Published in: Biomechanics and modeling in mechanobiology (2022)
A FLIP device gives cross-sectional area along the length of the esophagus and one pressure measurement, both as a function of time. Deducing mechanical properties of the esophagus including wall material properties, contraction strength, and wall relaxation from these data are a challenging inverse problem. Knowing mechanical properties can change how clinical decisions are made because of its potential for in-vivo mechanistic insights. To obtain such information, we conducted a parametric study to identify peristaltic regimes by using a 1D model of peristaltic flow through an elastic tube closed on both ends and also applied it to interpret clinical data. The results gave insightful information about the effect of tube stiffness, fluid/bolus density and contraction strength on the resulting esophagus shape through quantitive representations of the peristaltic regimes. Our analysis also revealed the mechanics of the opening of the contraction area as a function of bolus flow resistance. Lastly, we concluded that peristaltic driven flow displays three modes of peristaltic geometries, but all physiologically relevant flows fall into two peristaltic regimes characterized by a tight contraction.
Keyphrases
  • smooth muscle
  • cross sectional
  • electronic health record
  • big data
  • healthcare
  • blood brain barrier
  • working memory
  • data analysis