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The effect of surface curvature on wound healing in bone: II. The critical size defect.

✍ Scribed by J.A. Adam

Publisher
Elsevier Science
Year
2002
Tongue
English
Weight
597 KB
Volume
35
Category
Article
ISSN
0895-7177

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✦ Synopsis

Two related models are studied for wound healing on a spherical surface. The first, and simpler model is based on a reaction-diffusion equation describing the process of healing as the inward growth of new cells from a circular wound on a spherical surface. Several aspects of the wound healing problem are considered: by interpreting the healing process as a "pseudowave" propagating across the spherical surface a heuristic account of the "speed" of healing is possible, and the corresponding healing time is characterized. Of paxticular importance in relation to animal models is the existeuce (or not) of a critical size defect (a CSD, defined below); this is discussed as a consequence of the stability of the steady states of the system to nonuniform spatial (or angular) perturbations. Explicit criteria are derived under which a CSD exists (within the model) in terms of the skull radius and wound radius. Although neither model explicitly distinguishes between wound healing in bone or tissue, it is in the former that CSDs are known to occur. The second model invokes a weighted spatial average cell density which permits the presence of both a short-range activation term (as in the first model) and a long-range inhibition term. Under these circumstances, within a suitable parameter range, the phenomenon of aggregation may occur in addition to the behavior predicted by the first model. It is suggested that such aggregation is manifested in the case of keloid scarring, which can occur as a result of wound healing in tissue. (~ 2002 Elsevier Science Ltd. All rights reserved.

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