Trevor J Lujan

Summary

Publications

  1. doi request reprint A computational technique to measure fracture callus in radiographs
    Trevor J Lujan
    Biomechanics Laboratory, Legacy Research and Technology Center, Portland, OR 97232, USA
    J Biomech 43:792-5. 2010
  2. doi request reprint Locked plating of distal femur fractures leads to inconsistent and asymmetric callus formation
    Trevor J Lujan
    Biomechanics Laboratory, Legacy Research and Technology Center, Portland, OR 97215, USA
    J Orthop Trauma 24:156-62. 2010
  3. pmc A novel bioreactor for the dynamic stimulation and mechanical evaluation of multiple tissue-engineered constructs
    Trevor J Lujan
    Biomechanics Laboratory, Legacy Research and Technology Center, Portland, Oregon, USA
    Tissue Eng Part C Methods 17:367-74. 2011

Collaborators

Detail Information

Publications3

  1. doi request reprint A computational technique to measure fracture callus in radiographs
    Trevor J Lujan
    Biomechanics Laboratory, Legacy Research and Technology Center, Portland, OR 97232, USA
    J Biomech 43:792-5. 2010
    ..Furthermore, compared to clinician results, the algorithm yielded results with five times less inter-observer variance. This computational technique provides a reliable and efficient method to quantify secondary bone healing response...
  2. doi request reprint Locked plating of distal femur fractures leads to inconsistent and asymmetric callus formation
    Trevor J Lujan
    Biomechanics Laboratory, Legacy Research and Technology Center, Portland, OR 97215, USA
    J Orthop Trauma 24:156-62. 2010
    ..It investigated the effects of cortex-to-plate distance, bridging span, and implant material on periosteal callus formation...
  3. pmc A novel bioreactor for the dynamic stimulation and mechanical evaluation of multiple tissue-engineered constructs
    Trevor J Lujan
    Biomechanics Laboratory, Legacy Research and Technology Center, Portland, Oregon, USA
    Tissue Eng Part C Methods 17:367-74. 2011
    ..03). By integrating dynamic stimulation and mechanical evaluation into a single batch-testing research platform, the MATE can efficiently map the biomechanical development of tissue-engineered constructs during long-term culture...