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Bowstring Stretching and Quantitative Imaging of Single Collagen Fibrils via Atomic Force MicroscopyDesigned to fail: a novel mode of collagen fibril disruption and its relevance to tissue toughnessHigh spatial resolution (1.1 μm and 20 nm) FTIR polarization contrast imaging reveals pre-rupture disorder in damaged tendon.Quantitative phase measurements of tendon collagen fibres.The influence of torsion on disc herniation when combined with flexion.Repeated subrupture overload causes progression of nanoscaled discrete plasticity damage in tendon collagen fibrils.ISSLS prize winner: how loading rate influences disc failure mechanics: a microstructural assessment of internal disruption.ISSLS prize winner: microstructure and mechanical disruption of the lumbar disc annulus: part II: how the annulus fails under hydrostatic pressure.Mechanically overloading collagen fibrils uncoils collagen molecules, placing them in a stable, denatured state.Development of overuse tendinopathy: A new descriptive model for the initiation of tendon damage during cyclic loading.Collagen fibrils in functionally distinct tendons have differing structural responses to tendon rupture and fatigue loading.Differences in collagen cross-linking between the four valves of the bovine heart: a possible role in adaptation to mechanical fatigue.The morphology of acute disc herniation: a clinically relevant model defining the role of flexion.In tendons, differing physiological requirements lead to functionally distinct nanostructures.Macrophage-like U937 cells recognize collagen fibrils with strain-induced discrete plasticity damage.Combining tensile testing and structural analysis at the single collagen fibril levelCross-link stabilization does not affect the response of collagen molecules, fibrils, or tendons to tensile overloadGouy phase shift measurement using interferometric second-harmonic generationUltrastructure of tendon rupture depends on strain rate and tendon typeAdvanced glycation end-product cross-linking inhibits biomechanical plasticity and characteristic failure morphology of native tendonISSLS PRIZE IN BASIC SCIENCE 2020: Beyond microstructure-circumferential specialization within the lumbar intervertebral disc annulus extends to collagen nanostructure, with counterintuitive relationships to macroscale material propertiesUltrastructural response of tendon to excessive level or duration of tensile load supports that collagen fibrils are mechanically continuousUse of tendon to produce decellularized sheets of mineralized collagen fibrils for bone tissue repair and regeneration
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description
hulumtues
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researcher
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wetenschapper
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հետազոտող
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name
Samuel P Veres
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Samuel P Veres
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Samuel P Veres
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Samuel P Veres
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Samuel P Veres
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type
label
Samuel P Veres
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Samuel P Veres
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Samuel P Veres
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Samuel P Veres
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Samuel P Veres
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Samuel P Veres
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Samuel P Veres
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Samuel P Veres
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Samuel P Veres
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Samuel P Veres
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0000-0001-6308-4836