Altered blood rheology and impaired pressure-induced cutaneous vasodilation in a mouse model of combined type 2 diabetes and sickle cell trait

Altered blood rheology and impaired pressure-induced cutaneous vasodilation in a mouse model of combined type 2 diabetes and sickle cell trait

Type 2 diabetes (T2D)-related vascular dysfunction and hemorheological abnormalities could possibly be amplified by sickle cell trait (SCT). These alterations could potentially increase the risk of vascular complications in individuals with combined T2D and SCT. Therefore, this study used a mouse mo...

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Veröffentlicht in:Microvascular research 2019-03, Vol.122, p.111-116
Hauptverfasser: Skinner, Sarah, Connes, Philippe, Sigaudo-Roussel, Dominique, Lo, Ming, Liu, Kiao Ling, Nader, Elie, Josset-Lamaugarny, Audrey, Charrin, Emmanuelle, Martin, Cyril, Romanet-Faes, Camille, Diaw, Mor, Pialoux, Vincent, Fromy, Bérengère
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Blood viscosity
Cognitive science
Life Sciences
Microvascular function
Red blood cell deformability
Sickle cell trait
Type 2 diabetes
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container_end_page 116
container_issue
container_start_page 111
container_title Microvascular research
container_volume 122
creator Skinner, Sarah
Connes, Philippe
Sigaudo-Roussel, Dominique
Lo, Ming
Liu, Kiao Ling
Nader, Elie
Josset-Lamaugarny, Audrey
Charrin, Emmanuelle
Martin, Cyril
Romanet-Faes, Camille
Diaw, Mor
Pialoux, Vincent
Fromy, Bérengère
description Type 2 diabetes (T2D)-related vascular dysfunction and hemorheological abnormalities could possibly be amplified by sickle cell trait (SCT). These alterations could potentially increase the risk of vascular complications in individuals with combined T2D and SCT. Therefore, this study used a mouse model to determine whether vascular function and blood rheology were more severely altered in combined T2D and SCT than in T2D or SCT alone. Townes transgenic mice with or without SCT received a 12-week high fat high sucrose or standard diet to create models of combined T2D-SCT, T2D, SCT, and controls. Pressure-induced vasodilation (PIV) and sodium nitroprusside (SNP)-mediated vasodilation in-vivo, and hemorheological parameters were measured. No significant differences in blood viscosity, hematocrit, erythrocyte deformability, or PIV were observed between the control and T2D mice, or the control and SCT mice. However, blood viscosity, erythrocyte deformability, and PIV were significantly altered in the T2D-SCT mice compared to the control mice. There were no differences in SNP response between the groups. Although neither T2D nor SCT alone had significant effects on blood rheology parameters or vascular function, combined T2D-SCT mice had significantly altered blood rheology and significantly impaired vascular function. •Combined type 2 diabetes and sickle cell trait (T2D-SCT) increases blood viscosity.•Combined T2D-SCT decreases red blood cell deformability.•Combined T2D-SCT causes vascular dysfunction.
doi_str_mv 10.1016/j.mvr.2018.11.014
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subjects Blood viscosity
Cognitive science
Life Sciences
Microvascular function
Red blood cell deformability
Sickle cell trait
Type 2 diabetes
title Altered blood rheology and impaired pressure-induced cutaneous vasodilation in a mouse model of combined type 2 diabetes and sickle cell trait
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