BACKGROUND: Recent work suggests that mixing in the small intestine takes place in central luminal and peripheral compartments. However, while movements of villi have been described, the mechanisms by which peripheral mixing are engendered remain unclear. METHODS: We examined the disposition and movement of mucosa and associated villi during contractions of the everted terminal ileum of the brushtail possum. We then simulated the effect of these movements on peripheral mixing. KEY RESULTS: Compression of the intestinal mucosa by phasic longitudinal or radial contractions created short-lived microfolds, which were of similar scale to the attached villi. The packing density of the villous tips increased in the concavities and decreased on the crests of these microfolds. Simulations showed that these caused liquid digesta to be expelled from, or drawn into, intervillous spaces, significantly augmenting peripheral, but not bulk, luminal mixing. CONCLUSIONS & INFERENCES: We describe a mechanism by which peripheral mixing may be engendered by mucosal microfolds without requiring the coordinated contraction of individual villi or groups of villi.
BACKGROUND: Recent work suggests that mixing in the small intestine takes place in central luminal and peripheral compartments. However, while movements of villi have been described, the mechanisms by which peripheral mixing are engendered remain unclear. METHODS: We examined the disposition and movement of mucosa and associated villi during contractions of the everted terminal ileum of the brushtail possum. We then simulated the effect of these movements on peripheral mixing. KEY RESULTS: Compression of the intestinal mucosa by phasic longitudinal or radial contractions created short-lived microfolds, which were of similar scale to the attached villi. The packing density of the villous tips increased in the concavities and decreased on the crests of these microfolds. Simulations showed that these caused liquid digesta to be expelled from, or drawn into, intervillous spaces, significantly augmenting peripheral, but not bulk, luminal mixing. CONCLUSIONS & INFERENCES: We describe a mechanism by which peripheral mixing may be engendered by mucosal microfolds without requiring the coordinated contraction of individual villi or groups of villi.
Authors: Peng Du; Niranchan Paskaranandavadivel; Timothy R Angeli; Leo K Cheng; Gregory O'Grady Journal: Wiley Interdiscip Rev Syst Biol Med Date: 2015-11-12
Authors: Yuen Feung Lim; Roger G Lentle; Patrick W M Janssen; Martin A K Williams; Clément de Loubens; Bradley W Mansel; Paul Chambers Journal: PLoS One Date: 2014-06-23 Impact factor: 3.240
Authors: Clément de Loubens; Roger G Lentle; Corrin Hulls; Patrick W M Janssen; Richard J Love; J Paul Chambers Journal: PLoS One Date: 2014-04-18 Impact factor: 3.240