R.C. Ooi scite author profile

Clinical research into the formation of gallstones has indicated that the anatomy of the cystic duct is one of a number of factors contributing to the formation of gallstones. The cystic duct allows low-viscosity hepatic bile to enter the gallbladder under low pressure and the expulsion of a more viscous gallbladder bile, but little is known about this transport mechanism and the effect of anatomical variations in structure. This article describes the variation in geometry of the cystic duct, obtained from acrylic resin casts of the neck and first part of the cystic duct in gallbladders removed for gallstone disease and obtained from patients undergoing partial hepatectomy for metastatic disease. The data obtained allowed us to formulate a number of standard terms for describing cystic duct morphology and demonstrate that the term "spiral valve" is only partially correct when describing the duct anatomy. In over half of the casts, spiraling was not the dominant feature of the cystic duct. Additionally, the term valve implies active resistance to flow in one direction, whereas the internal baffles of the cystic duct would serve to regulate bile flow in both directions. These data are useful for realistic 3D modeling of fluid-structure interactions of the flow of bile in the human cystic duct.

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Visual Animation of Backward Facing Step Flow Computed by Large Eddy Simulation

Kobayashi¹,

Morinishi²,

Kato³

et al. 1991

Journal of the Visualization Society of Japan

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R.C. Ooi

The flow of bile in the human cystic duct

Computational analysis of the flow of bile in human cystic duct

Characterisation of impeller driven and oscillatory mixing by spatial and temporal shear rate distributions

Investigation of the functional three-dimensional anatomy of the human cystic duct: A single helix?

Visual Animation of Backward Facing Step Flow Computed by Large Eddy Simulation

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