Title of article :
Use of the rat forelimb compression model to create discrete levels of bone damage in vivo
Author/Authors :
Brian A. Uthgenannt، نويسنده , , Matthew J. Silva، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2007
Pages :
8
From page :
317
To page :
324
Abstract :
Skeletal responses to damage are significant for understanding the etiology of stress fractures and possibly osteoporotic fractures. We refined the rat forelimb-loading model to produce a range of sub-fracture damage levels during in vivo cyclic loading. A total of 98 right forelimbs of anesthetized, male, 5-month old Fischer rats were loaded cyclically (2 Hz) in axial compression. Rats were killed immediately after loading. In the first experiment, forelimbs were loaded to fracture, which occurred after an increase in peak displacement of 2.0±0.2 mm, independent of peak force or cycle number. In the next experiment, we loaded forelimbs at a constant peak force until the peak displacement increased by 0.6–1.8 mm (30–90% of fracture displacement). Mechanical properties of the loaded (right) and contralateral control (left) ulnae were determined ex vivo using three-point bending, and cracks were analyzed using micro-computed tomography. Results demonstrated a dose–response between increased forelimb displacement and increased ulnar damage, with four discrete damage levels. “Low” damage was produced by cyclic loading to 30% of fracture displacement, with no visible cracks and a 10% strength loss. “Mild” damage was produced by loading to 45% of fracture displacement, with variable linear cracks and 20% strength loss. “Moderate” damage was produced by loading to 60–75% of fracture displacement, with consistent linear cracks and 40% strength loss. “High” damage was produced by loading to 85–90% of fracture displacement, with branching cracks and 60% strength loss. This loading model will be useful for examining biological responses to a range of sub-fracture damage levels in future experiments.
Keywords :
Rat ulna , Bone fatigue , In vivo forelimb loading , Bone damage
Journal title :
Journal of Biomechanics
Serial Year :
2007
Journal title :
Journal of Biomechanics
Record number :
452426
Link To Document :
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