Structure of fibrin: impact on clot stability
- PMID: 17635717
- DOI: 10.1111/j.1538-7836.2007.02504.x
Structure of fibrin: impact on clot stability
Abstract
Information on the structural origins of clot stability is necessary for understanding the functions and pathology of fibrin clots and thrombi, but is also important for interpreting correctly the results of a variety of clinical diagnostic systems and technologies used daily to assess the hemostatic potential in patients. Fibrin polymerizes to make clots with a great diversity of structural, biological, physical and chemical properties, depending on the conditions of formation, and correlations have been established between these clot properties and many pathophysiological conditions. Clot stability refers to both viscoelastic properties, which are important because the clot essentially fulfills mechanical functions, and fibrinolytic properties, because the clot must be efficiently dissolved in a timely manner. The structure of the fibrin clot, which can be characterized in terms of a branched network, directly affects the clot's fibrinolytic and viscoelastic properties, which are remarkable and unique among polymers. Basic mechanisms underlying both the mechanical and fibrinolytic characteristics of fibrin are described. Some of the known correlations between clot structure and mechanical and fibrinolytic properties are summarized.
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