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Morphometric study of the equine navicular bone: variations with breeds and types of horse and influence of exercise

Published online by Cambridge University Press:  01 November 1998

ANNICK GABRIEL
Affiliation:
Department of Anatomy, University of Liège, Belgium
SANDRA JOLLY
Affiliation:
Department of Anatomy, University of Liège, Belgium
JOHANN DETILLEUX
Affiliation:
Department of Biostatistics, University of Liège, Belgium
CÉCILE DESSY-DOIZE
Affiliation:
Department of Histology, Faculty of Veterinary Medicine, University of Liège, Belgium
BERNARD COLLIN
Affiliation:
Department of Anatomy, University of Liège, Belgium
JEAN-YVES REGINSTER
Affiliation:
Bone and Cartilage Metabolism Unit, University of Liège, Belgium
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Abstract

Navicular bones from the 4 limbs of 95 horses, classified in 9 categories, were studied. The anatomical bases were established for the morphometry of the navicular bone and its variations according to the category of horse, after corrections were made for front or rear limb, sex, weight, size and age. In ponies, navicular bone measurements were smallest for light ponies and regularly increased with body size, but in horses, navicular bone dimensions were smallest for the athletic halfbred, intermediate for draft horse, thoroughbreds and sedentary halfbreds and largest for heavy halfbreds. The athletic halfbred thus showed reduced bone dimensions when compared with other horse types. Navicular bones from 61 horses were studied histomorphometrically. Light horses and ponies possessed larger amounts of cancellous bone and less cortical bone. Draft horses and heavy ponies showed marked thickening of cortical bone with minimum intracortical porosity, and a decrease in marrow spaces associated with more trabecular bone. Two distinct zones were observed for the flexor surface cortex: an external zone composed mainly of poorly remodelled lamellar bone, disposed in a distoproximal oblique direction, and an internal zone composed mainly of secondary bone, with a lateromedial direction for haversian canals. Flexor cortex external zone tended to be smaller for heavy ponies than for the light ponies. It was the opposite for horses, with the largest amount of external zone registered for draft horses. In athletic horses, we observed an increase in the amount of cortical bone at the expense of cancellous bone which could be the result of reduced resorption and increased formation at the corticoendosteal junction. Cancellous bone was reduced for the athletic horses but the number of trabeculae and their specific surfaces were larger. Increased bone formation and reduced resorption could also account for these differences.

Type
Research Article
Copyright
© Anatomical Society of Great Britain and Ireland 1998

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