Editorial Type:
Biomechanics

Kinetic and kinematic analysis of the right hind limb during trotting on a treadmill in Labrador Retrievers presumed predisposed or not predisposed to cranial cruciate ligament disease

Chantal A. Ragetly Department of Veterinary Clinical Medicine, College of Veterinary Medicine, College of Engineering, University of Illinois, Urbana, IL 61820.

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Dominique J. Griffon Department of Veterinary Clinical Medicine, College of Veterinary Medicine, College of Engineering, University of Illinois, Urbana, IL 61820.

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M. K. Iris Hsu Department of Mechanical Science and Engineering, College of Engineering, University of Illinois, Urbana, IL 61820.

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L. Michaela Klump Department of Industrial and Enterprise Systems Engineering, College of Engineering, University of Illinois, Urbana, IL 61820.

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Elizabeth T. Hsiao-Wecksler Department of Mechanical Science and Engineering, College of Engineering, University of Illinois, Urbana, IL 61820.

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DOI:
https://doi.org/10.2460/ajvr.73.8.1171
Volume/Issue:
Volume 73: Issue 8
Online Publication Date:
01 Aug 2012
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Abstract

Objective—To identify gait characteristics during trotting on a treadmill in nonlame Labrador Retrievers presumed predisposed or not predisposed to cranial cruciate ligament disease (CCLD).

Animals—Clinically normal Labrador Retrievers presumed predisposed (n = 10) or not predisposed (7) to CCLD.

Procedures—The right hind limb of each dog was classified by use of a predictive score equation that combined tibial plateau angle and femoral anteversion angle as presumed predisposed (high score [> −1.5]) or not predisposed (low score [≤ −1.5]) to CCLD. Tarsal joint, stifle joint, and hip joint kinematics, net moments, and powers were computed.

Results—The stifle joint was held at a greater degree of flexion in limbs presumed predisposed to CCLD (130.9° vs 139.3°). More power was generated by muscles acting on the stifle joint in the early stance phase of limbs presumed to be predisposed to CCLD (2.93 vs 1.64 W/kg). The tarsal joint did not reach the same degree of extension in limbs presumed predisposed to CCLD, compared with that in limbs presumed not predisposed to CCLD (179.0° vs 161.0°). Velocity, stance time, vertical and craniocaudal forces, angular velocities, and net joint muscle moments did not differ between groups.

Conclusions and Clinical Relevance—Gait mechanics of dogs with high (> −1.5) and low (≤ −1.5) tibial plateau angle and femoral anteversion angle scores were characterized on a treadmill, which may help in the identification of dogs predisposed to CCLD.

Abstract

Objective—To identify gait characteristics during trotting on a treadmill in nonlame Labrador Retrievers presumed predisposed or not predisposed to cranial cruciate ligament disease (CCLD).

Animals—Clinically normal Labrador Retrievers presumed predisposed (n = 10) or not predisposed (7) to CCLD.

Procedures—The right hind limb of each dog was classified by use of a predictive score equation that combined tibial plateau angle and femoral anteversion angle as presumed predisposed (high score [> −1.5]) or not predisposed (low score [≤ −1.5]) to CCLD. Tarsal joint, stifle joint, and hip joint kinematics, net moments, and powers were computed.

Results—The stifle joint was held at a greater degree of flexion in limbs presumed predisposed to CCLD (130.9° vs 139.3°). More power was generated by muscles acting on the stifle joint in the early stance phase of limbs presumed to be predisposed to CCLD (2.93 vs 1.64 W/kg). The tarsal joint did not reach the same degree of extension in limbs presumed predisposed to CCLD, compared with that in limbs presumed not predisposed to CCLD (179.0° vs 161.0°). Velocity, stance time, vertical and craniocaudal forces, angular velocities, and net joint muscle moments did not differ between groups.

Conclusions and Clinical Relevance—Gait mechanics of dogs with high (> −1.5) and low (≤ −1.5) tibial plateau angle and femoral anteversion angle scores were characterized on a treadmill, which may help in the identification of dogs predisposed to CCLD.

Contributor Notes

Dr Ragetly's present address is Clinique vétérinaire Evolia, l'Isle Adam, 95290, France.

Dr. Griffon's present address is Department of Surgery, College of Veterinary Medicine, Western University of Health Sciences, Pomona, CA 91766.

Ms. Klump's present address is Department of Mechanical Engineering, College of Engineering, University of Wisconsin, Madison, WI 53706.

This manuscript represents a portion of a dissertation submitted by the first author to the University of Illinois Department of Veterinary Clinical Medicine as partial fulfillment of the requirements for a Doctor of Philosophy degree.

Supported by the American Kennel Club.

The authors thank Dr. Rosario Vallefuoco, Chris Knowlton, and Philip Kwon for assistance with data collection and processing.

Address correspondence to Dr. Ragetly (cragetly@yahoo.fr).
Cover American Journal of Veterinary Research
American Journal of Veterinary Research
Publication Date:
01 Aug 2012

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