Title of article
Relevance of collagen piezoelectricity to “Wolffʹs Law”: A critical review
Author/Authors
Ahn، نويسنده , , Andrew C. and Grodzinsky، نويسنده , , Alan J.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
9
From page
733
To page
741
Abstract
According to “Wolffʹs Law”, bone is deposited and reinforced at areas of greatest stress. From a clinical perspective, this “law” is supported by the strong association between bone density and physical activity. From a mechanistic standpoint, however, the law presents a challenge to scientists seeking to understand how osteocytes and osteoblasts sense the mechanical load. In the 1960s, collagen piezoelectricity was invoked as a potential mechanism by which osteocytes could detect areas of greater stress but piezoelectricity diminished in importance as more compelling mechanisms, such as streaming potential, were identified. In addition, accumulating evidence for the role of fluid-related shear stress in osteocyteʹs mechanosensory function has made piezoelectricity seemingly more obsolete in bone physiology. This review critically evaluates the role of collagen piezoelectricity (if any) in Wolffʹs Law—specifically, the evidence regarding its involvement in strain-generated potentials, existing alternate mechanisms, the present understanding of bone mechanosensation, and whether piezoelectricity serves an influential role within the context of this newly proposed mechanism. In addition to reviewing the literature, this review generates several hypotheses and proposes future research to fully address the relevance of piezoelectricity in bone physiology.
Keywords
Biomechanics , electromechanics , Collagen , bone , Piezoelectricity
Journal title
Medical Engineering and Physics
Serial Year
2009
Journal title
Medical Engineering and Physics
Record number
1730558
Link To Document