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Effects of Age and Diet on the Development of Mechanical Strength by the Third Metacarpal and Metatarsal Bones of Young Horses¹

University of Maryland, College Park 20742

Abstract

The application of transmission ultrasonics to the equine cannon holds promise as a method of monitoring metacarpal and metatarsal development, quality and integrity under a variety of experimental and field conditions. The validity of relating the velocities of sound pulses transmitted through the cannon to the mechanical breaking strengths of these bones was tested in two studies. Breaking strengths calculated from the sound velocities through sections of the metacarpal bones from 14 yearling ponies and 12 yearling horses were highly correlated with the mechanical breaking strengths of those sections (r = .907 and .927, respectively; P<.01). Sound velocities through the cannons of the horses before sacrifice ranged from 2,453 to 3,130 m/s and were correlated with their mechanically determined breaking strengths (193 to 262 x 10⁶ N/M²; r = .673; P<.01). The correlation coefficient increased to .912 when the sound velocities were adjusted for the sound-delaying effects of the overlying soft tissues. In a third study, 13 horses were weaned at 2 to 4 mo of age and were fed diets providing either 100 or 130% of National Research Council (NRC) energy and protein recommendations. Metacarpal and metatarsal development was monitored monthly for 15 mo via transmission ultrasonics. Sound velocities, breaking strengths calculated from velocities adjusted for estimated soft tissue cover, measured bone mediolateral diameters and cannon diameters minus estimated soft tissue increased as quadratic functions of chronologic age (r>.840; P<.0001). None of these variables was significantly affected by diet, leg or sex. These studies have demonstrated that the use of transmission ultrasonics to estimate and monitor metacarpal and metatarsal breaking strengths in the live horse is reliable, reproducible, simple, accurate and valid. They also suggest that NRC energy and protein recommendations meet the requirements for maximum bone growth and development in well-managed young equines.

¹ Scientific Article No. A-4330, Contribution No. 7319 of the Maryland Agr. Exp. Sta. Appreciation is expressed to Ms. M. Kempf for assistance in manuscript preparation, to Ms. J. Williams for technical assistance, and to the Statistical Analysis Group, ARS, USDA, Beltsville, MD and the Harry Zweig Memorial Fund for Equine Research for partial support.

² Dept. of Anim. Sci.

³ Dept. of Physiol., New York State College of Vet. Med., Cornell Univ., Ithaca 14853.