Robert C. Singleton scite author profile

Robert C. Singleton

2Publications

42Citation Statements Received

103Citation Statements Given

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University of Tennessee at Knoxville

Publications

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Tissue-Level Mechanical Properties of Bone Contributing to Fracture Risk

Nyman

Granke

Singleton

et al. 2016

Curr Osteoporos Rep

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Tissue-level mechanical properties characterize mechanical behavior independently of microscopic porosity. Specifically, quasi-static nanoindentation provides measurements of modulus (stiffness) and hardness (resistance to yielding) of tissue at the length scale of the lamella, while dynamic nanoindentation assesses time-dependent behavior in the form of storage modulus (stiffness), loss modulus (dampening), and loss factor (ratio of the two). While these properties are useful in establishing how a gene, signaling pathway, or disease of interest affects bone tissue, they generally do not vary with aging after skeletal maturation or with osteoporosis. Heterogeneity in tissue-level mechanical properties or in compositional properties may contribute to fracture risk, but a consensus on whether the contribution is negative or positive has not emerged. In vivo indentation of bone tissue is now possible, and the mechanical resistance to microindentation has the potential for improving fracture risk assessment, though determinants are currently unknown.

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Increased tissue-level storage modulus and hardness with age in male cortical bone and its association with decreased fracture toughness

Singleton

Pharr

Nyman

2021

Bone

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