2017
DOI: 10.1016/j.actbio.2017.05.033
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Toughening of fibrous scaffolds by mobile mineral deposits

Abstract: Partially mineralized fibrous tissue situated between tendon and bone is believed to be tougher than either tendon or bone, possibly serving as a compliant, energy absorptive, protective barrier between the two. This tissue does not reform following surgical repair (e.g., rotator cuff tendon-to-bone re-attachment) and might be a factor in the poor outcomes following such surgeries. Towards our long-term goal of tissue engineered solutions to functional tendon-to-bone re-attachment, we tested the hypotheses tha… Show more

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Cited by 17 publications
(15 citation statements)
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“…To clarify the role that changes in crystal size and orientation may have on enthesis mechanics, a rotation model was analyzed. Motion of mineral relative to collagen fibers requires work and can serve as a means of mechanical energy absorption [67, 68]. It has previously been shown that, even in densely mineralized tissues such as bone, mineral crystals rotate within the tissue during loading [40].…”
Section: Discussionmentioning
confidence: 99%
“…To clarify the role that changes in crystal size and orientation may have on enthesis mechanics, a rotation model was analyzed. Motion of mineral relative to collagen fibers requires work and can serve as a means of mechanical energy absorption [67, 68]. It has previously been shown that, even in densely mineralized tissues such as bone, mineral crystals rotate within the tissue during loading [40].…”
Section: Discussionmentioning
confidence: 99%
“…Mobility of crosslinking nanoparticles is hypothesized to endow networks with enhanced toughness. 392–394 Several successful classes of hybrid hydrogels containing nanoparticles or nanostructures have been developed. These include inorganic and non-metallic nanoparticles ( e.g.…”
Section: Functional and Biomimetic Materials Designsmentioning
confidence: 99%
“…A role of collagen fibre recruitment and buckling has been recognized since the 1930s [15], and a range of continuum models using statistical distributions of collagen fibres and their crimping exist to accurately predict the associated nonlinear behaviour of uniaxially loaded tendons [16][17][18][19]. From the continuum standpoint, many features of the tendon-to-bone attachment appear well-suited to enabling touch attachment, including the spatial distribution of mechanical properties across the enthesis [20][21][22], inelastic deformation [23] and the scarf angle of the insertion [22,24]. These factors are crucial for avoiding the continuum singularities that can arise at the interfaces between dissimilar materials, and in different ways relate to a role of spatially varying features and anatomic geometry on load resistance.…”
Section: Introductionmentioning
confidence: 99%