The Physiological Principle of Minimum Work: I. The Vascular System and the Cost of Blood Volume.
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This article is published in Proceedings of the National Academy of Sciences of the United States of America.The article was published on 1926-03-01 and is currently open access. It has received 1820 citations till now. The article focuses on the topics: Blood volume.read more
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Three-Dimensional Simulations in Glenn Patients: Clinically Based Boundary Conditions, Hemodynamic Results and Sensitivity to Input Data
TL;DR: This study suggests that the common practice of imposing a right pulmonary artery/left pulmonary artery flow split of 55%/45% when performing patient specific simulations should be avoided and constitutes a first step towards understanding the hemodynamic differences between pre- and post Fontan surgery, predicting these differences, and evaluating surgical outcomes based on preoperative data.
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Comparative structural and hemodynamic analysis of vascular trees.
TL;DR: Comparisons of geometry and also of simulated hemodynamics are provided, enabling the identification of similarities and differences among 10 individual specimens to account for the patterns and function of vascular arborization.
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Projection image-generation algorithm for fabrication of a complex structure using projection-based microstereolithography
TL;DR: To fabricate a complex 3-D structure for a target tissue (liver, blood vessel, etc.) using the pMSTL system, a new algorithm is introduced that automatically generates projection image information from closed loops calculated during the slicing process.
Proceedings ArticleDOI
A framework for personalization of coronary flow computations during rest and hyperemia
Puneet Sharma,Lucian Mihai Itu,Xudong Zheng,Ali Kamen,Dominik Bernhardt,Constantin Suciu,Dorin Comaniciu +6 more
TL;DR: A CFD based method for performing patient-specific coronary hemodynamic computations under two conditions: at rest and during drug-induced hyperemia, demonstrating that the estimation of the hyperemic resistances is crucial to obtain accurate values for pressure and flow rates.
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Quantitative optical coherence tomography angiography: A review:
TL;DR: Technical rationales and clinical applications of these quantitative OCTA features are summarized, and future prospects for using these quantitative OctA features for artificial intelligence classification of eye conditions are discussed.