Evaluation of a pressure walkway system for measurement of vertical limb forces in clinically normal dogs

Objective-To compare ground reaction forces (GRFs) measured by use of a pressure-sensitive walkway (PSW) and a force plate (FP) and evaluate weekly variation in the GRFs and static vertical forces in dogs. Animals-34 clinically normal dogs and 5 research dogs with lameness. Procedure-GRF data were collected from 5 lame and 14 clinically normal dogs by use of an FP and a PSW. Peak vertical force (PVF), vertical impulse (VI), and velocity measurements (determined by use of photocells and PSW data) were compared between groups. Peak vertical force, VI, stride length, ground phase time (ie, contact time), and static body weight distribution data were collected on 2 occasions, 1 week apart, in 20 different clinically normal dogs by use of a PSW; week-to-week variation in values was evaluated. Results-Measurements of velocity derived by use of the photocells were not different from those derived by use of the PSW. For any 1 limb, values derived by use of the PSW were significantly lower than values derived with the FP For values obtained by use of either technique, there were no differences between left and right limbs except for values of PVF measured via PSW in forelimbs. Values of PVF, VI, contact time, stride length, and static weight distribution generated by the PSW did not vary from week to week. Conclusions and Clinical Relevance-Values for GRFs varied between the FP and PSW. However, data derived by use of PSW were consistent and could be used to evaluate kinetic variables over time in the same dog.