Platelet adhesion and activation on a shielded plasma gradient prepared on polyethylene

Contact of blood with foreign materials evokes thrombogenic effects to an extent determined partly by the wettability of the biomaterials surface. Tools to study blood response towards a variation in materials wettability with minimal variation in chemistry are “gradient surfaces”. However, most gra...

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Bibliographic Details
Published in:Biomaterials 2002-02, Vol.23 (3), p.757-766
Main Authors: Spijker, Hetty T., Bos, Rolf, Busscher, Henk J., van Kooten, Theo G., van Oeveren, Wim
Format: Article
Language:English
Subjects:
Activation
Adhesion
Biocompatible Materials - chemistry
Biocompatible Materials - pharmacology
Blood Physiological Phenomena
Blood Platelets - physiology
Blood Platelets - ultrastructure
Cell Membrane - physiology
Cell Membrane - ultrastructure
Factor X - metabolism
Factor Xa - metabolism
Humans
Microscopy, Electron, Scanning
Platelet Activation - drug effects
Platelet Activation - physiology
Platelet Adhesiveness - drug effects
Platelet Adhesiveness - physiology
Platelets
Polyethylene - pharmacology
Surface Properties
Wettability gradients
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Summary:Contact of blood with foreign materials evokes thrombogenic effects to an extent determined partly by the wettability of the biomaterials surface. Tools to study blood response towards a variation in materials wettability with minimal variation in chemistry are “gradient surfaces”. However, most gradients have been prepared by diffusion or density immersion techniques, which results in a limited gradient range. Through glow discharge with partial shielding, gradients on polymers were prepared over a length of 5 cm, which facilitated studies to platelet adhesion on separate gradient sections. On polyethylene, advancing water contact angles varied from 90° to 40°, with a hysteresis of 30°. ESCA indicated an increasing incorporation of oxygen towards the hydrophilic end. To examine the role of materials wettability on the activation of adhering platelets, sections of shielded plasma gradients were incubated in anticoagulated whole human blood. Fewer platelets adhered to the hydrophobic end, but those platelets were more activated than those on the hydrophilic end, as judged from their morphology and exposure of GpIIb–IIIa complex. However, partly related to the increased binding of platelets, the clotting activation after platelet deposition was highest on the hydrophilic end. Concluding, this new technique results in a large gradient range, which facilitates studies of formed blood elements in relation to the wettability. Platelets are more activated on hydrophobic polyethylene, while on moderate hydrophilic polyethylene more platelet adhesion and activation of the clotting system occurs.
ISSN:0142-9612
1878-5905
DOI:10.1016/S0142-9612(01)00181-8