Microindentation for In Vivo Measurement of Bone Tissue Mechanical Properties in Humans

@article{DiezPerez2010MicroindentationFI,
  title={Microindentation for In Vivo Measurement of Bone Tissue Mechanical Properties in Humans},
  author={A. Diez-Perez and R. G{\"u}erri and X. Nogu{\'e}s and E. C{\'a}ceres and M. J. Pe{\~n}a and L. Mellibovsky and C. Randall and D. Bridges and J. Weaver and Alexander Proctor and Davis Brimer and K. J. Koester and R. Ritchie and P. Hansma},
  journal={Journal of Bone and Mineral Research},
  year={2010},
  volume={25},
  pages={1877 - 1885}
}
Bone tissue mechanical properties are deemed a key component of bone strength, but their assessment requires invasive procedures. Here we validate a new instrument, a reference point indentation (RPI) instrument, for measuring these tissue properties in vivo. The RPI instrument performs bone microindentation testing (BMT) by inserting a probe assembly through the skin covering the tibia and, after displacing periosteum, applying 20 indentation cycles at 2 Hz each with a maximum force of 11 N… Expand
Modeling of Osteoprobe indentation on bone.
Insights into reference point indentation involving human cortical bone: sensitivity to tissue anisotropy and mechanical behavior.
Finite element simulation of Reference Point Indentation on bone.
Microindentation for in vivo measurement of bone tissue material properties in atypical femoral fracture patients and controls
Microindentation – a tool for measuring cortical bone stiffness?
True Gold or Pyrite: A Review of Reference Point Indentation for Assessing Bone Mechanical Properties In Vivo
Clinical Measurements of Bone Tissue Mechanical Behavior Using Reference Point Indentation
Microindentation: A New Technique for Bone Quality Assessment
...
1
2
3
4
5
...

References

SHOWING 1-10 OF 56 REFERENCES
The bone diagnostic instrument II: indentation distance increase.
The bone diagnostic instrument III: testing mouse femora.
Atomic force microscopy and indentation force measurement of bone.
  • P. Thurner
  • Materials Science, Medicine
  • Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology
  • 2009
Incompatible mechanical properties in compact bone.
  • J. Currey
  • Medicine
  • Journal of theoretical biology
  • 2004
High-speed photography of compressed human trabecular bone correlates whitening to microscopic damage
Novel techniques for high-resolution functional imaging of trabecular bone
The tissue diagnostic instrument.
...
1
2
3
4
5
...