A computational model of the initial/pre-collecting lymphatics, and a study of lymphatic valvogenesis
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Open Access
Type
ThesisThesis type
Doctor of PhilosophyAuthor/s
Ikhimwin, Bernard OsayimwenseAbstract
This thesis describes a computational model for an initial/pre-collecting lymphatic network and a study on valvogenesis (formation of valves in the lymphatics during embryonic development). The computational model was applied to rat mesenteric lymphatic networks (19- and 163-segment) ...
See moreThis thesis describes a computational model for an initial/pre-collecting lymphatic network and a study on valvogenesis (formation of valves in the lymphatics during embryonic development). The computational model was applied to rat mesenteric lymphatic networks (19- and 163-segment) with sparse secondary valves. The network was simulated with these secondary valves being operational and non-operational. Sensitivity of parameters like the vessel stiffness, interstitial resistance, and the availability of primary valves, on the cycle-mean outflow-rate from the 19-segment network was considered. Results for the study on valvogenesis, simulations done on the 2D images of embryonic skin lymphatic network suggest that fluid shear stress does not localize the expression of Prox1 (a transcription factor responsible for valve formation).
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See moreThis thesis describes a computational model for an initial/pre-collecting lymphatic network and a study on valvogenesis (formation of valves in the lymphatics during embryonic development). The computational model was applied to rat mesenteric lymphatic networks (19- and 163-segment) with sparse secondary valves. The network was simulated with these secondary valves being operational and non-operational. Sensitivity of parameters like the vessel stiffness, interstitial resistance, and the availability of primary valves, on the cycle-mean outflow-rate from the 19-segment network was considered. Results for the study on valvogenesis, simulations done on the 2D images of embryonic skin lymphatic network suggest that fluid shear stress does not localize the expression of Prox1 (a transcription factor responsible for valve formation).
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Date
2020Publisher
University of SydneyRights statement
The author retains copyright of this thesis. It may only be used for the purposes of research and study. It must not be used for any other purposes and may not be transmitted or shared with others without prior permission.Faculty/School
Faculty of Science, School of Mathematics and StatisticsAwarding institution
The University of SydneyShare