Objective—To evaluate changes in the cortical bone of the proximal phalanx of the fore- limbs of Thoroughbreds in response to training. Animals—Twenty-seven 2-year-old Thoroughbreds (20 females, 2 males, and 5 geldings). Procedures—Horses were principally in training for races in a straight line and in a clock- wise direction. Lateromedial and dorsopalmar radiographic views of each metacarpopha- langeal joint were obtained before the horses started training and 1 year after starting ex- ercise and racing. Width of the dorsal, palmar, lateral, and medial cortex and the width and thickness of the medulla were measured. Ratios (rather than absolute values) were used to remove the effect of differences in bone size among horses. Results—10 horses were lost from the study. Radiographs were obtained for 17 horses 1 year after starting training (9 horses raced in a clockwise direction, and 8 raced in clockwise and counterclockwise directions). There was no difference between the cortical bone in the right and left forelimbs at the start of the study. After training for 1 year, the palmar cortex in the right forelimb was significantly thicker than that in the left forelimb. Conclusions and Clinical Relevance—The strain patterns, biomechanics of rapid exercise, and type of training most probably determined differences in the adaptive responses of the proximal phalanx. The data reported here can be used in the evaluation of weight-bearing distribution along the proximal phalanx and evaluation of the relationship between exercise and bone remodelling of the proximal phalanx. (Am J Vet Res 2011;72:1482–1488)

Radiographic evaluation of changes in the proximal phalanx of Thoroughbreds in race training

BECCATI, FRANCESCA;PEPE, Marco;DI MEO, Antonio;MORICONI, Franco
2011

Abstract

Objective—To evaluate changes in the cortical bone of the proximal phalanx of the fore- limbs of Thoroughbreds in response to training. Animals—Twenty-seven 2-year-old Thoroughbreds (20 females, 2 males, and 5 geldings). Procedures—Horses were principally in training for races in a straight line and in a clock- wise direction. Lateromedial and dorsopalmar radiographic views of each metacarpopha- langeal joint were obtained before the horses started training and 1 year after starting ex- ercise and racing. Width of the dorsal, palmar, lateral, and medial cortex and the width and thickness of the medulla were measured. Ratios (rather than absolute values) were used to remove the effect of differences in bone size among horses. Results—10 horses were lost from the study. Radiographs were obtained for 17 horses 1 year after starting training (9 horses raced in a clockwise direction, and 8 raced in clockwise and counterclockwise directions). There was no difference between the cortical bone in the right and left forelimbs at the start of the study. After training for 1 year, the palmar cortex in the right forelimb was significantly thicker than that in the left forelimb. Conclusions and Clinical Relevance—The strain patterns, biomechanics of rapid exercise, and type of training most probably determined differences in the adaptive responses of the proximal phalanx. The data reported here can be used in the evaluation of weight-bearing distribution along the proximal phalanx and evaluation of the relationship between exercise and bone remodelling of the proximal phalanx. (Am J Vet Res 2011;72:1482–1488)
2011
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11391/166841
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