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Effects of unidirectional flow shear stresses on the formation, fractal microstructure and rigidity of incipient whole blood clots and fibrin gels
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Rowan Brown ,
Matthew Lawrence,
A.I. Campbell,
A. Sabra,
Adrian Evans ,
J.W. Weisel,
I.N. Chernysh,
C. Nagaswami,
Rhodri Williams ,
Karl Hawkins
Clinical Hemorheology and Microcirculation, Volume: 60, Issue: 4, Pages: 451 - 464
Swansea University Authors:
Daniel Curtis , Rowan Brown , Matthew Lawrence, Adrian Evans , Rhodri Williams , Karl Hawkins
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DOI (Published version): 10.3233/ch-151924
Abstract
Incipient clot formation in whole blood and fibrin gels was studied by the rheometric techniques of controlled stress parallel superposition (CSPS) and small amplitude oscillatory shear (SAOS). The effects of unidirectional shear stress on incipient clot microstructure, formation kinetics and elasti...
| Published in: | Clinical Hemorheology and Microcirculation |
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| ISSN: | 1386-0291 1875-8622 |
| Published: |
IOS Press
2015
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| Online Access: |
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| URI: | https://cronfa.swan.ac.uk/Record/cronfa20275 |
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| Abstract: |
Incipient clot formation in whole blood and fibrin gels was studied by the rheometric techniques of controlled stress parallel superposition (CSPS) and small amplitude oscillatory shear (SAOS). The effects of unidirectional shear stress on incipient clot microstructure, formation kinetics and elasticity are reported in terms of the fractal dimension (df) of the fibrin network, the gel network formation time (TGP) and the shear elastic modulus, respectively. The results of this first haemorheological application of CSPS reveal the marked sensitivity of incipient clot microstructure to physiologically relevant levels of shear stress, these being an order of magnitude lower than have previously been studied by SAOS. CSPS tests revealed that exposure of forming clots to increasing levels of shear stress produces a corresponding elevation in df, consistent with the formation of tighter, more compact clot microstructures under unidirectional flow. A corresponding increase in shear elasticity was recorded. The scaling relationship established between shear elasticity and df for fibrin clots and whole blood confirms the fibrin network as the dominant microstructural component of the incipient clot in terms of its response to imposed stress. Supplementary studies of fibrin clot formation by rheometry and microscopy revealed the substantial additional network mass required to increase df and provide evidence to support the hypothesis that microstructural changes in blood clotted under unidirectional shear may be attributed to flow enhanced thrombin generation and activation. CSPS also identified a threshold value of unidirectional shear stress above which no incipient clot formation could be detected. CSPS was shown to be a valuable haemorheological tool for the study of the effects of physiological and pathological levels of shear on clot properties. |
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| Keywords: |
Gel Point; Clotting Time; Fractal Dimension; Shear Stress; Controlled Stress Parallel Superposition |
| College: |
Faculty of Medicine, Health and Life Sciences |
| Funders: |
This work was supported by EPSRC(UK) grants EP/C513037/ 1 and EP/I019405/1 and a NISCHR
BRU award |
| Issue: |
4 |
| Start Page: |
451 |
| End Page: |
464 |