G
Giovanna Guidoboni
Researcher at University of Missouri
Publications - 147
Citations - 2075
Giovanna Guidoboni is an academic researcher from University of Missouri. The author has contributed to research in topics: Glaucoma & Intraocular pressure. The author has an hindex of 23, co-authored 136 publications receiving 1728 citations. Previous affiliations of Giovanna Guidoboni include Indiana University – Purdue University Indianapolis & University of Ferrara.
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Stable loosely-coupled-type algorithm for fluid-structure interaction in blood flow
TL;DR: A novel loosely coupled-type algorithm for fluid-structure interaction between blood flow and thin vascular walls that is based on a time-discretization via operator splitting which is applied, in a novel way, to separate the fluid sub- problem from the structure elastodynamics sub-problem.
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On the numerical simulation of Bingham visco-plastic flow: Old and new results
TL;DR: The main goal of this article is to review various results and methods concerning the numerical simulation of Bingham visco-plastic flow; these results have been obtained from the early 1970s to now.
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Modeling viscoelastic behavior of arterial walls and their interaction with pulsatile blood flow
Sunčica Čanić,Josip Tambača,Giovanna Guidoboni,Andro Mikelić,Craig J. Hartley,Doreen Rosenstrauch +5 more
TL;DR: The motion converting and drive structure includes operational features which function to continuously vary the linear displacement rate of the support along the arm during constant angular velocity of the upright shaft.
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Blood Flow in Compliant Arteries: An Effective Viscoelastic Reduced Model, Numerics, and Experimental Validation
Sunčica Čanić,Craig J. Hartley,Doreen Rosenstrauch,Josip Tambača,Giovanna Guidoboni,Andro Mikelić +5 more
TL;DR: A novel closed, “one-and-a-half dimensional” model was obtained that would capture certain physical phenomena that have been neglected in the derivation of the standard axially symmetric one-dimensional models, while at the same time keeping the numerical simulations fast and simple.
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Intraocular Pressure, Blood Pressure, and Retinal Blood Flow Autoregulation: A Mathematical Model to Clarify Their Relationship and Clinical Relevance
Giovanna Guidoboni,Alon Harris,Simone Cassani,Julia Arciero,Brent Siesky,Annahita Amireskandari,Leslie Tobe,Patrick Egan,Ingrida Januleviciene,Joshua Park +9 more
TL;DR: In this paper, a mathematical model is developed to simulate blood flow in the central retinal vessels and retinal microvasculature as current flowing through a network of resistances and capacitances.