All Stories

  1. Collagen fibrils in functionally distinct tendons have differing structural responses to tendon rupture and fatigue loading

    Article • Acta Biomaterialia, June 2016, Elsevier

    Samuel Veres

  2. Quantitative phase measurements of tendon collagen fibres

    Article • Journal of Biophotonics, January 2016, Wiley

    Samuel Veres

  3. High spatial resolution (1.1 μm and 20 nm) FTIR polarization contrast imaging reveals pre-rupture disorder in damaged tendon

    Article • Faraday Discussions, January 2016, Royal Society of Chemistry

    Samuel Veres

  4. Macrophage-like U937 cells recognize collagen fibrils with strain-induced discrete plasticity damage

    Article • Journal of Biomedical Materials Research Part A, April 2014, Wiley

    Samuel Veres

  5. Mechanically overloading collagen fibrils uncoils collagen molecules, placing them in a stable, denatured state

    Article • Matrix Biology, January 2014, Elsevier

    Samuel Veres

  6. Cross‐link stabilization does not affect the response of collagen molecules, fibrils, or tendons to tensile overload

    Article • Journal of Orthopaedic Research®, August 2013, Wiley

    Samuel Veres

  7. Repeated subrupture overload causes progression of nanoscaled discrete plasticity damage in tendon collagen fibrils

    Article • Journal of Orthopaedic Research®, December 2012, Wiley

    Samuel Veres

  8. Designed to Fail: A Novel Mode of Collagen Fibril Disruption and Its Relevance to Tissue Toughness

    Article • Biophysical Journal, June 2012, Elsevier

    Samuel Veres

  9. ISSLS Prize Winner: How Loading Rate Influences Disc Failure Mechanics

    Article • Spine, October 2010, Wolters Kluwer Health

    Samuel Veres

  10. The influence of torsion on disc herniation when combined with flexion

    Article • European Spine Journal, May 2010, Springer Science + Business Media

    Samuel Veres

  11. The Morphology of Acute Disc Herniation

    Article • Spine, October 2009, Wolters Kluwer Health

    Samuel Veres

  12. ISSLS Prize Winner: Microstructure and Mechanical Disruption of the Lumbar Disc Annulus

    Article • Spine, December 2008, Wolters Kluwer Health

    Samuel Veres