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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Roots and calibers of the human coronary arteries.
TL;DR: The results suggest that the structure of the coronary-aortic junctions is very different from theructure of typical arterial bifurcations and, by implication, that the flow conditions under which they function are very different.
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Dynamics of Nephron-Vascular Network
Dmitry D. Postnov,Dmitry E. Postnov,Donald J. Marsh,Niels Henrik Holstein-Rathlou,Olga Sosnovtseva +4 more
TL;DR: The paper presents a modeling study of the spatial dynamics of a nephro-vascular network consisting of individual nephrons connected via a tree-like vascular branching structure and demonstrates the effects of nonlinear mechanisms that are responsible for the formation of synchronous patterns.
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Interspecific scaling of blood flow rates and arterial sizes in mammals.
TL;DR: As expected, of individual named arteries is strongly affected by body mass; however, of the common carotid artery from six species (mouse to horse) is also sensitive to differences in whole-body basal metabolic rate, independent of the effect of body mass.
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Penetration of inhaled aerosols in the bronchial tree.
TL;DR: An anatomically-inspired model of the human respiratory tree featuring the generations 0-7 in the Weibel model of respiratory tree is introduced, used to study experimentally the dynamics of inhaled aerosol particles during typical breathing patterns.
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A hierarchical zeolitic Murray material with a mass transfer advantage promotes catalytic efficiency improvement
Zhao Peng,Zhao Peng,Li-Hua Chen,Ming Hui Sun,Heng Zhao,Zhao Wang,Yu Li,Li Yuan Li,Jian Zhou,Zhi Cheng Liu,Bao-Lian Su,Bao-Lian Su,Bao-Lian Su +12 more
TL;DR: By employing carbon-packed zeolite nanocrystals as primary building blocks, hierarchically porous MFI-type zeolites with precise dimensions spanning meso and micro-length scales were successfully synthesized using an in situ crystallization strategy as mentioned in this paper.