Literature DB >> 22923620

Autoregulation and mechanotransduction control the arteriolar response to small changes in hematocrit.

Krishna Sriram1, Beatriz Y Salazar Vázquez, Amy G Tsai, Pedro Cabrales, Marcos Intaglietta, Daniel M Tartakovsky.   

Abstract

Here, we present an analytic model of arteriolar mechanics that accounts for key autoregulation mechanisms, including the myogenic response and the vasodilatory effects of nitric oxide (NO) in the vasculature. It couples the fluid mechanics of blood flow in arterioles with solid mechanics of the vessel wall and includes the effects of wall shear stress- and stretch-induced endothelial NO production. The model can be used to describe the regulation of blood flow and NO transport under small changes in hematocrit and to analyze the regulatory response of arterioles to small changes in hematocrit. Our analysis revealed that the experimentally observed paradoxical increase in cardiac output with small increases in hematocrit results from the combination of increased NO production and the effects of a strong myogenic response modulated by elevated levels of WSS. Our findings support the hypothesis that vascular resistance varies inversely with blood viscosity for small changes in hematocrit in a healthy circulation that responds to shear stress stimuli. They also suggest beneficial effects independent of changes in O(2) carrying capacity associated with the postsurgical transfusion of one or two units of blood.

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Year:  2012        PMID: 22923620      PMCID: PMC3517642          DOI: 10.1152/ajpheart.00438.2012

Source DB:  PubMed          Journal:  Am J Physiol Heart Circ Physiol        ISSN: 0363-6135            Impact factor:   4.733


  58 in total

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Journal:  Physiol Rev       Date:  1999-04       Impact factor: 37.312

2.  Erythrocyte consumption of nitric oxide in presence and absence of plasma-based hemoglobin.

Authors:  Nikolaos M Tsoukias; Aleksander S Popel
Journal:  Am J Physiol Heart Circ Physiol       Date:  2002-06       Impact factor: 4.733

3.  Influence of flow properties of blood upon viscosity-hematocrit relationships.

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Journal:  J Clin Invest       Date:  1962-08       Impact factor: 14.808

4.  Dynamic myogenic autoregulation in the rat kidney: a whole-organ model.

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Journal:  Am J Physiol Renal Physiol       Date:  2008-03-19

5.  Steady and transient fluid shear stress stimulate NO release in osteoblasts through distinct biochemical pathways.

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Journal:  J Bone Miner Res       Date:  1999-06       Impact factor: 6.741

6.  The effect of small changes in hematocrit on nitric oxide transport in arterioles.

Authors:  Krishna Sriram; Beatriz Y Salazar Vázquez; Ozlem Yalcin; Paul C Johnson; Marcos Intaglietta; Daniel M Tartakovsky
Journal:  Antioxid Redox Signal       Date:  2010-09-09       Impact factor: 8.401

7.  Effects of shear stress on nitric oxide levels of human cerebral endothelial cells cultured in an artificial capillary system.

Authors:  G A Mashour; R J Boock
Journal:  Brain Res       Date:  1999-09-18       Impact factor: 3.252

8.  Stretch activates nitric oxide production in pulmonary vascular endothelial cells in situ.

Authors:  Wolfgang M Kuebler; Ulrike Uhlig; Torsten Goldmann; Gregor Schael; Alexander Kerem; Kay Exner; Christian Martin; Ekkehard Vollmer; Stefan Uhlig
Journal:  Am J Respir Crit Care Med       Date:  2003-08-28       Impact factor: 21.405

9.  Hyperpolarization and relaxation of arterial smooth muscle caused by nitric oxide derived from the endothelium.

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Journal:  Nature       Date:  1990-07-05       Impact factor: 49.962

10.  Endothelial independence of myogenic response in isolated skeletal muscle arterioles.

Authors:  J C Falcone; M J Davis; G A Meininger
Journal:  Am J Physiol       Date:  1991-01
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  11 in total

1.  Shear-Induced Nitric Oxide Production by Endothelial Cells.

Authors:  Krishna Sriram; Justin G Laughlin; Padmini Rangamani; Daniel M Tartakovsky
Journal:  Biophys J       Date:  2016-07-12       Impact factor: 4.033

2.  Optimal hematocrit in an artificial microvascular network.

Authors:  Nathaniel Z Piety; Walter H Reinhart; Julianne Stutz; Sergey S Shevkoplyas
Journal:  Transfusion       Date:  2017-07-05       Impact factor: 3.157

3.  A model of anemic tissue perfusion after blood transfusion shows critical role of endothelial response to shear stress stimuli.

Authors:  Weiyu Li; Amy G Tsai; Marcos Intaglietta; Daniel M Tartakovsky
Journal:  J Appl Physiol (1985)       Date:  2021-10-14

4.  Two-phase model for prediction of cell-free layer width in blood flow.

Authors:  Bumseok Namgung; Meongkeun Ju; Pedro Cabrales; Sangho Kim
Journal:  Microvasc Res       Date:  2012-10-29       Impact factor: 3.514

5.  Non-Newtonian flow of blood in arterioles: consequences for wall shear stress measurements.

Authors:  Krishna Sriram; Marcos Intaglietta; Daniel M Tartakovsky
Journal:  Microcirculation       Date:  2014-10       Impact factor: 2.628

6.  The Effect of Red Blood Cell Transfusion on Cerebral Autoregulation in Patients with Severe Traumatic Brain Injury.

Authors:  Mypinder S Sekhon; Donald E Griesdale; Marek Czosnyka; Joseph Donnelly; Xia Liu; Marcel J Aries; Chiara Robba; Andrea Lavinio; David K Menon; Peter Smielewski; Arun K Gupta
Journal:  Neurocrit Care       Date:  2015-10       Impact factor: 3.210

7.  Influence of serological factors and BMI on the blood pressure/hematocrit association in healthy young men and women.

Authors:  Beatriz Y Salazar Vázquez; Miguel A Salazar Vázquez; Adolfo Chávez-Negrete; Galileo Escobedo; Pedro Cabrales; Shankar Subramaniam; Marcos Intaglietta; Ruy Pérez-Tamayo
Journal:  Vasc Health Risk Manag       Date:  2014-05-06

8.  Epoetin beta pegol ameliorates flow-mediated dilation with improving endothelial nitric oxide synthase coupling state in nonobese diabetic rats.

Authors:  Kenichi Serizawa; Kenji Yogo; Yoshihito Tashiro; Ryohei Kawasaki; Koichi Endo; Yasushi Shimonaka; Michinori Hirata
Journal:  Cardiovasc Ther       Date:  2017-04       Impact factor: 3.023

9.  Expert recommendations on the assessment of wall shear stress in human coronary arteries: existing methodologies, technical considerations, and clinical applications.

Authors:  Frank Gijsen; Yuki Katagiri; Peter Barlis; Christos Bourantas; Carlos Collet; Umit Coskun; Joost Daemen; Jouke Dijkstra; Elazer Edelman; Paul Evans; Kim van der Heiden; Rod Hose; Bon-Kwon Koo; Rob Krams; Alison Marsden; Francesco Migliavacca; Yoshinobu Onuma; Andrew Ooi; Eric Poon; Habib Samady; Peter Stone; Kuniaki Takahashi; Dalin Tang; Vikas Thondapu; Erhan Tenekecioglu; Lucas Timmins; Ryo Torii; Jolanda Wentzel; Patrick Serruys
Journal:  Eur Heart J       Date:  2019-11-01       Impact factor: 29.983

Review 10.  Blood Rheology: Key Parameters, Impact on Blood Flow, Role in Sickle Cell Disease and Effects of Exercise.

Authors:  Elie Nader; Sarah Skinner; Marc Romana; Romain Fort; Nathalie Lemonne; Nicolas Guillot; Alexandra Gauthier; Sophie Antoine-Jonville; Céline Renoux; Marie-Dominique Hardy-Dessources; Emeric Stauffer; Philippe Joly; Yves Bertrand; Philippe Connes
Journal:  Front Physiol       Date:  2019-10-17       Impact factor: 4.566
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