High-intensity exercise induces structural, compositional and metabolic changes in cuboidal bones — findings from an equine athlete model

Abstract

Fatigue fracture of cuboidal bones occurs in the human foot as well as the equine carpus. The racehorse provides a naturally-occurring model to study the effects of high-intensity exercise on the morphology and metabolism of cuboidal bones. We studied both the mineral and the collagenous matrix of the third (C 3) and radial (C r) carpal bones of raced and non-raced Thoroughbred (TB) horses. We hypothesised that racehorses would show increases in the mineral component of these bones and post-translational modifications of the collagenous matrix alongside changes in markers of collagen remodelling and bone formation. C 3 and C r carpal bones were retrieved from raced TB horses ( n = 14) and non-raced TB horses ( n = 11). Standardised proximal–distal sections were taken from each bone and these were sliced transversely to study the proximal–distal differences in bone metabolism from the subchondral plate through to trabecular bone. Histomorphometry and bone mineral density measurements were performed in parallel with biochemical analyses including total collagen, collagen synthesis and cross-links, matrix metalloproteinases-2 and 9 and their inhibitors, calcium and phosphate, and bone alkaline phosphatase. The results of this study show that, while there is a net increase in bone formation in the racehorses, there is additionally an increase in bone collagen synthesis and remodelling, particularly within the trabecular regions of the bone. The increase in bone density would lead to greater stiffness, particularly in the cortical bone, and failure of this ‘stiffer’ cortical bone may result from its lack of support from the rapidly remodelling and structurally weakened underlying trabecular bone.