Literature DB >> 26582038

Paradoxical Effect of Nonphysiological Shear Stress on Platelets and von Willebrand Factor.

Zengsheng Chen1,2, Nandan K Mondal1, Jun Ding1,3, Steven C Koenig1, Mark S Slaughter1, Zhongjun J Wu1.   

Abstract

Blood can become hypercoagulable by shear-induced platelet activation and generation of microparticles. It has been reported that nonphysiological shear stress (NPSS) could induce shedding of platelet receptor glycoprotein (GP) Ibα, which may result in an opposite effect to hemostasis. The aim of this study was to investigate the influence of the NPSS on platelets and von Willebrand factor (vWF). Human blood was exposed to two levels of NPSS (25 Pa, 125 Pa) with an exposure time of 0.5 s, generated by using a novel blood-shearing device. Platelet activation (P-selectin expression, GPIIb/IIIa activation and generation of microparticles) and shedding of three platelet receptors (GPIbα, GPVI, GPIIb/IIIa) in sheared blood were quantified using flow cytometry. Aggregation capacity of sheared blood induced by ristocetin and collagen was evaluated using an aggregometer. Shear-induced vWF damage was characterized with Western blotting. Consistent with the published data, the NPSS caused significantly more platelets to become activated with increasing NPSS level. Meanwhile, the NPSS induced the shedding of platelet receptors. The loss of the platelet receptors increased with increasing NPSS level. The aggregation capacity of sheared blood induced by ristocetin and collagen decreased. There was a loss of high molecular weight multimers (HMWMs) of vWF in sheared blood. These results suggest that the NPSS induced a paradoxical effect. More activated platelets increase the risk of thrombosis, while the reduction in platelet receptors and the loss of HMWM-vWF increased the propensity of bleeding. The finding might provide a new perspective to understand thrombosis and acquired bleeding disorder in patients supported with blood contacting medical devices.
Copyright © 2015 International Center for Artificial Organs and Transplantation and Wiley Periodicals, Inc.

Entities:  

Keywords:  Bleeding; Blood contacting medical devices; Nonphysiological high shear stress; Receptor shedding; Thrombosis

Mesh:

Substances:

Year:  2015        PMID: 26582038      PMCID: PMC4871771          DOI: 10.1111/aor.12606

Source DB:  PubMed          Journal:  Artif Organs        ISSN: 0160-564X            Impact factor:   3.094


  27 in total

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5.  Acquired von Willebrand syndrome in patients with ventricular assist device or total artificial heart.

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6.  Platelet glycoprotein Ibα ectodomain shedding and non-surgical bleeding in heart failure patients supported by continuous-flow left ventricular assist devices.

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8.  Evaluation of Eulerian and Lagrangian models for hemolysis estimation.

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9.  Quantification of Shear-Induced Platelet Activation: High Shear Stresses for Short Exposure Time.

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Journal:  Artif Organs       Date:  2015-03-21       Impact factor: 3.094

10.  Platelet dysfunction in outpatients with left ventricular assist devices.

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  22 in total

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Authors:  Zengsheng Chen; Sofen K Jena; Guruprasad A Giridharan; Michael A Sobieski; Steven C Koenig; Mark S Slaughter; Bartley P Griffith; Zhongjun J Wu
Journal:  Med Biol Eng Comput       Date:  2018-11-08       Impact factor: 2.602

2.  High shear induces platelet dysfunction leading to enhanced thrombotic propensity and diminished hemostatic capacity.

Authors:  Zengsheng Chen; Nandan K Mondal; Shirong Zheng; Steven C Koenig; Mark S Slaughter; Bartley P Griffith; Zhongjun J Wu
Journal:  Platelets       Date:  2017-11-28       Impact factor: 3.862

3.  Association of Oxidative Stress and Platelet Receptor Glycoprotein GPIbα and GPVI Shedding During Nonsurgical Bleeding in Heart Failure Patients With Continuous-Flow Left Ventricular Assist Device Support.

Authors:  Nandan K Mondal; Zengsheng Chen; Jaimin R Trivedi; Erik N Sorensen; Si M Pham; Mark S Slaughter; Bartley P Griffith; Zhongjun J Wu
Journal:  ASAIO J       Date:  2018 Jul/Aug       Impact factor: 2.872

4.  Mechanistic insight of platelet apoptosis leading to non-surgical bleeding among heart failure patients supported by continuous-flow left ventricular assist devices.

Authors:  Nandan K Mondal; Tieluo Li; Zengsheng Chen; Hegang H Chen; Erik N Sorensen; Si M Pham; Michael A Sobieski; Steven C Koenig; Mark S Slaughter; Bartley P Griffith; Zhongjun J Wu
Journal:  Mol Cell Biochem       Date:  2017-03-25       Impact factor: 3.396

5.  Oxidative stress induced modulation of platelet integrin α2bβ3 expression and shedding may predict the risk of major bleeding in heart failure patients supported by continuous flow left ventricular assist devices.

Authors:  Nandan K Mondal; Zengsheng Chen; Jaimin R Trivedi; Erik N Sorensen; Si M Pham; Mark S Slaughter; Bartley P Griffith; Zhongjun J Wu
Journal:  Thromb Res       Date:  2017-09-08       Impact factor: 3.944

6.  The impact of shear stress on device-induced platelet hemostatic dysfunction relevant to thrombosis and bleeding in mechanically assisted circulation.

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7.  A New Mathematical Numerical Model to Evaluate the Risk of Thrombosis in Three Clinical Ventricular Assist Devices.

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8.  Quantitative Characterization of Shear-Induced Platelet Receptor Shedding: Glycoprotein Ibα, Glycoprotein VI, and Glycoprotein IIb/IIIa.

Authors:  Zengsheng Chen; Steven C Koenig; Mark S Slaughter; Bartley P Griffith; Zhongjun J Wu
Journal:  ASAIO J       Date:  2018 Nov/Dec       Impact factor: 2.872

9.  Flow features and device-induced blood trauma in CF-VADs under a pulsatile blood flow condition: A CFD comparative study.

Authors:  Zengsheng Chen; Sofen K Jena; Guruprasad A Giridharan; Steven C Koenig; Mark S Slaughter; Bartley P Griffith; Zhongjun J Wu
Journal:  Int J Numer Method Biomed Eng       Date:  2017-10-06       Impact factor: 2.747

10.  Shear Stress Accumulation Enhances von Willebrand Factor-Induced Platelet P-Selectin Translocation in a PI3K/Akt Pathway-Dependent Manner.

Authors:  Jinhua Fang; Xiaoxi Sun; Silu Liu; Pu Yang; Jiangguo Lin; Jingjing Feng; Miguel A Cruz; Jing-Fei Dong; Ying Fang; Jianhua Wu
Journal:  Front Cell Dev Biol       Date:  2021-06-01
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