SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3002586254> ?p ?o ?g. }

Showing items 1 to 100 of ±179 with 100 items per page.

W3002586254 abstract "Red blood cells (RBC) carry and deliver oxygen (O2) to peripheral tissues through different microcirculatory regions where they are exposed to various levels of shear stress (SS). O2 affinity of hemoglobin (Hb) decreases as the blood enters the microcirculation. This phenomenon determines Hb interactions with RBC membrane proteins that can further regulate the structure of cytoskeleton and affect the mechanical properties of cells. The goal of this study is to evaluate shear-induced RBC deformability and simulate RBC dynamics in blood flow under oxygenated and deoxygenated conditions. Venous blood samples from healthy donors were oxygenated with ambient air or deoxygenated with 100% nitrogen gas for 10 minutes and immediately applied into an ektacytometer (LORRCA). RBC deformability was measured before and after the application of continuous 5 Pa SS for 300 seconds by LORRCA and recorded as elongation index (EI) values. A computational model was generated for the simulation of blood flow in a real carotid artery section. EI distribution throughout the artery and its relationships with velocity, pressure, wall SS and viscosity were determined by computational tools. RBC deformability significantly increased in deoxygenation compared to oxygenated state both before and after 5 Pa SS implementation (p5.15 Pa) in deoxygenated condition. Simulation results revealed that the velocity gradient dominates the generation of SS and the shear thinning effect of blood has a minor effect on it. Distribution of EI was calculated during oxygenation/deoxygenation which is 5-10 times higher around the vessel wall compared to the center of the lumen for sections of the pulsatile flow profile. The extent of RBC deformability increases as RBCs approach to the vessel wall in a real 3D artery model and this increment is higher for deoxygenated condition compared to the oxygenated state. Hypoxia significantly increases shear-induced RBC deformability. RBCs could regulate their own mechanical properties in blood flow by increasing their deformability in hypoxic conditions. Computational tools can be applied for defining hypoxia-mediated RBC deformability changes to monitor blood flow in hypoxic tissues." @default.
W3002586254 created "2020-01-30" @default.
W3002586254 creator A5027965767 @default.
W3002586254 creator A5032309855 @default.
W3002586254 creator A5052972441 @default.
W3002586254 creator A5080018105 @default.
W3002586254 creator A5088464309 @default.
W3002586254 date "2020-01-22" @default.
W3002586254 modified "2023-09-28" @default.
W3002586254 title "From Experiments to Simulation: Shear-Induced Responses of Red Blood Cells to Different Oxygen Saturation Levels" @default.
W3002586254 cites W1548089064 @default.
W3002586254 cites W1550058900 @default.
W3002586254 cites W1553057520 @default.
W3002586254 cites W1571541323 @default.
W3002586254 cites W1607077699 @default.
W3002586254 cites W1658194148 @default.
W3002586254 cites W1881143351 @default.
W3002586254 cites W1966697010 @default.
W3002586254 cites W1966977447 @default.
W3002586254 cites W1968678502 @default.
W3002586254 cites W1969173609 @default.
W3002586254 cites W1973568641 @default.
W3002586254 cites W1974549029 @default.
W3002586254 cites W1975244345 @default.
W3002586254 cites W1983021870 @default.
W3002586254 cites W1984179683 @default.
W3002586254 cites W1985741620 @default.
W3002586254 cites W1989575161 @default.
W3002586254 cites W1991335360 @default.
W3002586254 cites W1992160483 @default.
W3002586254 cites W1993466365 @default.
W3002586254 cites W1995099481 @default.
W3002586254 cites W1995220022 @default.
W3002586254 cites W1997674502 @default.
W3002586254 cites W1998761071 @default.
W3002586254 cites W2008889199 @default.
W3002586254 cites W2011107746 @default.
W3002586254 cites W2014497476 @default.
W3002586254 cites W2016580981 @default.
W3002586254 cites W2019495122 @default.
W3002586254 cites W2020193912 @default.
W3002586254 cites W2022066534 @default.
W3002586254 cites W2022577826 @default.
W3002586254 cites W2033240573 @default.
W3002586254 cites W2044921286 @default.
W3002586254 cites W2047095668 @default.
W3002586254 cites W2056471557 @default.
W3002586254 cites W2062013337 @default.
W3002586254 cites W2067953773 @default.
W3002586254 cites W2068109198 @default.
W3002586254 cites W2075246160 @default.
W3002586254 cites W2075822475 @default.
W3002586254 cites W2078910773 @default.
W3002586254 cites W2084621368 @default.
W3002586254 cites W2091676064 @default.
W3002586254 cites W2095115132 @default.
W3002586254 cites W2096465912 @default.
W3002586254 cites W2096958802 @default.
W3002586254 cites W2105402035 @default.
W3002586254 cites W2107983947 @default.
W3002586254 cites W2108205413 @default.
W3002586254 cites W2108206335 @default.
W3002586254 cites W2121221073 @default.
W3002586254 cites W2127515675 @default.
W3002586254 cites W2136211623 @default.
W3002586254 cites W2138011583 @default.
W3002586254 cites W2150616794 @default.
W3002586254 cites W2152287206 @default.
W3002586254 cites W2158139687 @default.
W3002586254 cites W2161078065 @default.
W3002586254 cites W2162484465 @default.
W3002586254 cites W2170591449 @default.
W3002586254 cites W2170710824 @default.
W3002586254 cites W2201559243 @default.
W3002586254 cites W2255424342 @default.
W3002586254 cites W2274780038 @default.
W3002586254 cites W2302876124 @default.
W3002586254 cites W2303792554 @default.
W3002586254 cites W2335793642 @default.
W3002586254 cites W2335906204 @default.
W3002586254 cites W2415075238 @default.
W3002586254 cites W2486166640 @default.
W3002586254 cites W2491973535 @default.
W3002586254 cites W2526127169 @default.
W3002586254 cites W2607042933 @default.
W3002586254 cites W2724420361 @default.
W3002586254 cites W2795028923 @default.
W3002586254 cites W2800565021 @default.
W3002586254 cites W2804341743 @default.
W3002586254 cites W2843026736 @default.
W3002586254 cites W2982309731 @default.
W3002586254 cites W866173586 @default.
W3002586254 doi "https://doi.org/10.3389/fphys.2019.01559" @default.
W3002586254 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6987081" @default.
W3002586254 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32038272" @default.
W3002586254 hasPublicationYear "2020" @default.
W3002586254 type Work @default.
W3002586254 sameAs 3002586254 @default.
W3002586254 citedByCount "9" @default.
W3002586254 countsByYear W30025862542020 @default.