Aging changes mechanical loading thresholds for bone formation in rats

J Bone Miner Res. 1995 Oct;10(10):1544-9. doi: 10.1002/jbmr.5650101016.

Abstract

The effect of aging on the mechanical loading thresholds for osteogenesis was investigated in rats. We applied mechanical loads varying from 30 to 64 N to the tibiae of 43 19-month-old rats using a four-point bending apparatus. Bone formation rates were measured on the periosteal and endocortical surfaces of the tibial midshaft using double-label histomorphometry. Bone formation rates from the old rats were compared with results from adult (9-month-old) rats that we reported earlier.(4) Bone formation on the periosteal surface of the old rats was predominantly woven-fibered. Periosteal bone formation was observed in a lower percentage of the old rats compared with the younger adult rats for applied loads of 40 N and greater (59% old, 100% adult). However, in the old rats that formed woven bone there were no significant differences in woven bone area (p=0.1) or surface (p=0.24) compared with younger adults. Therefore, the periosteum of old rats had a higher threshold for activation by mechanical loading, but after activation occurred, the cells had the same capacity to form woven bone as younger adult animals. On the endocortical surface, relative bone formation rates in old rats showed a marginal (p=0.06) increase in response to an applied load of 64 N but was not increased at lower loads. The relative bone formation rate in the old rats was over 16-fold less than that reported for the younger adult rats at an applied load of 64 N and the relative bone forming surface in old rats in this study was 5-fold less than it was younger rats under similar loading conditions. In the younger adult rats, a mechanical threshold for lamellar bone formation of 1050 microstrain was calculated for the endocortical bone surface. The old rats required over 1700 microstrain on the endocortical surface before bone formation was increased. The data suggest that both the periosteal and endocortical surfaces of the tibiae of older rats are less responsive to mechanical stimuli.

Publication types

  • Research Support, U.S. Gov't, P.H.S.

MeSH terms

  • Adaptation, Physiological
  • Animals
  • Bone Development / physiology*
  • Female
  • Periosteum / anatomy & histology
  • Periosteum / physiology
  • Rats
  • Rats, Sprague-Dawley
  • Surface Properties
  • Weight-Bearing*