Automated in Vivo Quantification of Human Cortical Bone Thickness and Porosity by HR-pQCT

Authors

  • Kyle Nishiyama Department of Mechanical and Manufacturing Engineering - University of Calgary, Calgary Roger Jackson Centre for Health and Wellness Research - University of Calgary
  • HR Buie Department of Mechanical and Manufacturing Engineering - University of Calgary, Calgary Roger Jackson Centre for Health and Wellness Research - University of Calgary
  • HM MacDonald Department of Mechanical and Manufacturing Engineering - University of Calgary, Calgary Roger Jackson Centre for Health and Wellness Research - University of Calgary
  • DA Hanley Division of Endocrinology and Metabolism, Department of Medicine - University of Calgary
  • SK Boyd Department of Mechanical and Manufacturing Engineering - University of Calgary, Calgary Roger Jackson Centre for Health and Wellness Research - University of Calgary

Abstract

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Published

2009-05-20

How to Cite

[1]
K. Nishiyama, H. Buie, H. MacDonald, D. Hanley, and S. Boyd, “Automated in Vivo Quantification of Human Cortical Bone Thickness and Porosity by HR-pQCT”, CMBES Proc., vol. 32, no. 1, May 2009.

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Articles