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Issue title: 25th Anniversary Volume. Dedicated in Memory and in Honor of George William Scott Blair. 23 July 1902 to 30 September 1987
Article type: Research Article
Authors: Sutera, S.P.a | Nowak, M.D.a | Joist, J.H.b | Zeffren, D.J.b | Bauman, J.E.b
Affiliations: [a] Department of Mechanical Engineering, Washington University, St. Louis, Missouri, USA | [b] Departments of Internal Medicine and Pathology, St. Louis University School of Medicine, St. Louis, Missouri USA
Note: [] Accepted by: Editor R. Skalak
Abstract: Described is a special purpose cone-plate viscometer that is capable of acceleration or deceleration through a step change in speed in less than 0.7s. The speed of the rotating cone is controlled by a microcomputer which can be programmed to generate speed vs time ramp functions of variable slope. Prior calibration of motor power required to shear Newtonian fluids of known viscosity at various speeds provides the basis for determination of apparent suspension viscosity and enables the viscometer automatically to compensate for changing sample viscosity during shear. The viscometer was used to carry out a series of preliminary studies in which platelet-rich plasma (PRP) was subjected to continuous and pulsatile shear stress at 37°C. Shear-induced platelet aggregation (SIPAG) was significantly greater in response to pulsatile versus continuous shearing except at the lowest applied stress (10 dyn/cm2). Increases ranged from about 40 percent at a stress amplitude of 25 dyn/cm2 to nearly 55 percent at dyn/cm2 . This increasing trend with stress amplitude might be interpreted as a positive correlation between SIPAG and the loading rate. Dense granule release, as indicated by serotonin release, was dependent on both stress amplitude and number of pulses even at the higher stress where SIPAG was independent of pulse number.
Keywords: platelets, pulsatile shear stress
DOI: 10.3233/BIR-1988-25306
Journal: Biorheology, vol. 25, no. 3, pp. 449-459, 1988
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