Age-related changes in the fracture resistance of male Fischer F344 rat bone.

Uppuganti S, Granke M, Makowski AJ, Does MD, Nyman JS
Bone. 2016 83: 220-232

PMID: 26610688 · PMCID: PMC4724327 · DOI:10.1016/j.bone.2015.11.009

In addition to the loss in bone volume that occurs with age, there is a decline in material properties. To test new therapies or diagnostic tools that target such properties as material strength and toughness, a pre-clinical model of aging would be useful in which changes in bone are similar to those that occur with aging in humans. Toward that end, we hypothesized that similar to human bone, the estimated toughness and material strength of cortical bone at the apparent-level decreases with age in the male Fischer F344 rat. In addition, we tested whether the known decline in trabecular architecture in rats translated to an age-related decrease in vertebra (VB) strength and whether non-X-ray techniques could quantify tissue changes at micron and sub-micron length scales. Bones were harvested from 6-, 12-, and 24-month (mo.) old rats (n=12 per age). Despite a loss in trabecular bone with age, VB compressive strength was similar among the age groups. Similarly, whole-bone strength (peak force) in bending was maintained (femur) or increased (radius) with aging. There was though an age-related decrease in post-yield toughness (radius) and bending strength (femur). The ability to resist crack initiation was actually higher for the 12-mo. and 24-mo. than for 6-mo. rats (notch femur), but the estimated work to propagate the crack was less for the aged bone. For the femur diaphysis region, porosity increased while bound water decreased with age. For the radius diaphysis, there was an age-related increase in non-enzymatic and mature enzymatic collagen crosslinks. Raman spectroscopy analysis of embedded cross-sections of the tibia mid-shaft detected an increase in carbonate subsitution with advanced aging for both inner and outer tissue.

Published by Elsevier Inc.

MeSH Terms (15)

Aging Animals Biomechanical Phenomena Body Weight Bone and Bones Femur Finite Element Analysis Fractures, Bone Lumbar Vertebrae Male Porosity Radius Rats, Inbred F344 Spectrum Analysis, Raman X-Ray Microtomography

Connections (4)

This publication is referenced by other Labnodes entities:

Links