Yield shear stress and disaggregating shear stress of human blood

This review presents two distinct rheological parameters of blood that have the potential to indicate blood circulation adequacy: yield shear stress (YSS) and disaggregating shear stress (DSS). YSS and DSS reflect the strength of red blood cell (RBC) aggregation in suspension under static and dynami...

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Published inKorea-Australia rheology journal Vol. 26; no. 2; pp. 191 - 198
Main Authors Jung, Jinmu, Lee, Byoung-Kwon, Shin, Sehyun
Format Journal Article
LanguageEnglish
Published Heidelberg Korean Society of Rheology, Australian Society of Rheology 01.05.2014
한국유변학회
Subjects
Characterization and Evaluation of Materials
Chemistry and Materials Science
Complex Fluids and Microfluidics
Food Science
Materials Science
Mechanical Engineering
Polymer Sciences
Review
Soft and Granular Matter
공학일반
viscosity
disaggregating shear stress
RBC aggregation
blood
yield shear stress
Online AccessGet full text
ISSN1226-119X
2093-7660
DOI10.1007/s13367-014-0020-6

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Abstract This review presents two distinct rheological parameters of blood that have the potential to indicate blood circulation adequacy: yield shear stress (YSS) and disaggregating shear stress (DSS). YSS and DSS reflect the strength of red blood cell (RBC) aggregation in suspension under static and dynamic conditions, respectively. YSS, defined as the critical stress to disperse RBC aggregates under static conditions, was found to be dependent upon hematocrit, fibrinogen, and red cell deformability, but not temperature. DSS, defined as the minimum shear stress to disperse RBC aggregates under dynamic conditions, is dependent upon fibrinogen, red cell deformability, and temperature but not hematocrit. Owing to recent advances in measurement technology, these two parameters can be easily measured, and thus, their clinical significance in blood circulation can be verified.
AbstractList This review presents two distinct rheological parameters of blood that have the potential to indicate blood circulation adequacy: yield shear stress (YSS) and disaggregating shear stress (DSS). YSS and DSS reflect the strength of red blood cell (RBC) aggregation in suspension under static and dynamic conditions, respectively. YSS, defined as the critical stress to disperse RBC aggregates under static conditions, was found to be dependent upon hematocrit, fibrinogen, and red cell deformability, but not temperature. DSS, defined as the minimum shear stress to disperse RBC aggregates under dynamic conditions, is dependent upon fibrinogen, red cell deformability, and temperature but not hematocrit. Owing to recent advances in measurement technology, these two parameters can be easily measured, and thus, their clinical significance in blood circulation can be verified.
This review presents two distinct rheological parameters of blood that have the potential to indicate bloodcirculation adequacy: yield shear stress (YSS) and disaggregating shear stress (DSS). YSS and DSS reflectthe strength of red blood cell (RBC) aggregation in suspension under static and dynamic conditions, respectively. YSS, defined as the critical stress to disperse RBC aggregates under static conditions, was found tobe dependent upon hematocrit, fibrinogen, and red cell deformability, but not temperature. DSS, defined asthe minimum shear stress to disperse RBC aggregates under dynamic conditions, is dependent upon fibrinogen,red cell deformability, and temperature but not hematocrit. Owing to recent advances in measurementtechnology, these two parameters can be easily measured, and thus, their clinical significance in blood circulationcan be verified. KCI Citation Count: 4
Author Shin, Sehyun
Jung, Jinmu
Lee, Byoung-Kwon
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  surname: Jung
  fullname: Jung, Jinmu
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  fullname: Shin, Sehyun
  email: lexerdshin@korea.ac.kr
  organization: School of Mechanical Engineering, Korea University
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Keywords viscosity
disaggregating shear stress
RBC aggregation
blood
yield shear stress
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한국유변학회
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– reference: ShinSKuYHHoJXKimYKSuhJSSinghMClin Hemorheol Microcirc.200736253261
– reference: ReinhartWHSinghAEur. J. Clin. Invest.19902045846210.1111/j.1365-2362.1990.tb01884.x
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– reference: ShinSHouJXSuhJSKorea-Aust. Rheol. J.2007196166
– reference: ChmielHBiorheology1974118796
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– reference: MerrillEWChengCSPelletierGAJ. Appl. Physiol.19692613
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– reference: ShinSKuYParkMSSuhJSClin. Hemorheol. Microcirc.200430467470
– reference: PicartCCarpentierPHGalliardHPiauJMAm. J. Physiol.1999H771H777
– reference: MorrisCLIIC SBlackshearPLJr.Biophys J.19875222924010.1016/S0006-3495(87)83210-1
– reference: VolgerESchmid-SchönbeinHGosenJKloseHJKlineKAPflugers Arch.197535431933710.1007/BF00587850
– reference: XueSLeeBKShinSClin Hemorheol Microcirc.201355231240
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– reference: RazavianSMDel PinoMSimonALevensonJHypertension19922024725210.1161/01.HYP.20.2.247
– reference: LimHJLeeYJNamJHChungSShinSRev. Sci. Instrum.20095009610110.1063/1.3223534
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– reference: MerrillEWGillilandERCokeletGShinHBrittenAWellsREJr.J. Appl. Physiol.196318255260
– reference: WeedRILaCellePLMerrillEWJ. Clin. Invest.19694879580910.1172/JCI106038
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– reference: CokeletGRMerrillEWGillilandERTrans. Soc. Rheol.1963730331710.1122/1.548959
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Snippet This review presents two distinct rheological parameters of blood that have the potential to indicate blood circulation adequacy: yield shear stress (YSS) and...
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SubjectTerms Characterization and Evaluation of Materials
Chemistry and Materials Science
Complex Fluids and Microfluidics
Food Science
Materials Science
Mechanical Engineering
Polymer Sciences
Review
Soft and Granular Matter
공학일반
Title Yield shear stress and disaggregating shear stress of human blood
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