Hermann P. Hogg scite author profile

Summary Reasons for performing study: The compensatory mechanisms of horses with weightbearing hindlimb lameness are still not fully understood. Hypothesis: That weightbearing, unilateral hindlimb lameness would not only alter stride characteristics to diminish structural stress in the affected limb but also induce compensatory load adjustments in the other supporting limbs. Objective: To document the load and time shifting mechanisms of horses with unilateral weightbearing hindlimb lameness. Methods: Reversible lameness was induced in 8 clinically sound horses by applying a solar pressure model. Three degrees of lameness (subtle, mild and moderate) were induced and compared with the nonlame (sound) control measurement. Vertical ground reaction forces were recorded for all 4 limbs simultaneously on an instrumented treadmill. Results: Compared to the sound situation, moderate hindlimb hoof lameness induced a decrease in stride duration (‐3.3%) and stride impulse (‐3.1%). Diagonal impulse decreased selectively in the lame diagonal stance (‐7.7%). Within the diagonal limb pair, vertical impulse was shifted to the forelimb during the lame diagonal stance (+6.5%) and to the hindlimb during the sound diagonal stance (+3.2%). Peak vertical force and vertical impulse decreased in the lame limb (‐15%), but only vertical impulse increased in the contralateral hindlimb (+5.7%). Stance duration was prolonged in both hindlimbs (+2.5%). Suspension duration was reduced to a greater extent after push‐off of the lame diagonal limb pair (‐21%) than after the sound diagonal limb pair (‐9.2%). Conclusions: Four compensatory mechanisms could be identified that served to reduce structural stress, i.e. peak vertical force on the affected limb: 1) reduction of the total vertical impulse per stride; 2) diagonal impulse decreased selectively in the lame diagonal; 3) impulse was shifted within the lame diagonal to the forelimb and in the sound diagonal to the hindlimb; and 4) the rate of loading and peak forces were reduced by prolonging the stance duration. Potential relevance: Load shifting mechanisms are not only effective in diminishing peak forces in the affected limb, but also suppress compensatory overload in other limbs. Selected force and time parameters allow the unequivocal identification of the lame limb. Future studies have to examine how far these compensatory mechanisms may be generalised for other defined orthopaedic problems in the hindlimb.

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Instrumented treadmill for measuring vertical ground reaction forces in horses

Weishaupt

Hogg

Wiestner

et al. 2002

ajvr

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Velocity‐dependent changes of time, force and spatial parameters in Warmblood horses walking and trotting on a treadmill

Weishaupt¹,

Hogg

Auer

et al. 2010

Equine Veterinary Journal

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SummaryReasons for performing study: Gait analysis parameters are sensitive to alterations in velocity. For comparison of nonspeed-matched data, the velocity dependency needs to be known. Objectives: To describe the changes in gait pattern and determine the relationships between stride duration, vertical impulse, contact time and peak vertical force within a range of walking and trotting speeds. Methods: Thirty-eight nonlame Warmblood horses were subjected to an incremental speed test. The spans of speed were adjusted individually to each horse and ranged from 1.1-2.1 m/s at walk and from 2.5-5.8 m/s at trot. Time, force and spatial parameters of each limb were measured with an instrumented treadmill and analysed with regression analysis using velocity as the independent variable. Results: At a slow walk the shape of the force curve was generally single-peaked in the fore-and trapezoidal in the hindlimbs. With increasing speed, the curves turned into the typical double-peaked shape with a higher second peak in the fore-and a higher first peak in the hindlimbs. With increasing velocity, stride duration, stance durations and limb impulses of the foreand hindlimbs decreased in both gaits (r 2 >0.92). Increasing speed caused a weight shift to the forehand (walk: from 56 to 59%; trot: from 55 to 57%). Despite decreasing limb impulses, peak vertical forces increased in both gaits (r 2 >0.83). The suspension duration of the trot increased with faster velocities and reached a plateau of around 90 ms at the highest speeds. At a slow trot, the forelimbs impacted first and followed the hindlimbs at lift-off; with increasing speed, the horses tended to impact earlier with the hindlimbs. Contralateral symmetry indices of all parameters remained unchanged. Conclusions: Subject velocity affects time, force and spatial parameters. Knowing the mathematical function of these interdependencies enables correction of nonspeedmatched data.

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Vertical ground reaction force–time histories of sound Warmblood horses trotting on a treadmill

Weishaupt

Wiestner

Hogg

et al. 2004

The Veterinary Journal

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Hermann P. Hogg

Compensatory load redistribution of horses with induced weight-bearing forelimb lameness trotting on a treadmill

Compensatory load redistribution of horses with induced weightbearing hindlimb lameness trotting on a treadmill

Instrumented treadmill for measuring vertical ground reaction forces in horses

Velocity‐dependent changes of time, force and spatial parameters in Warmblood horses walking and trotting on a treadmill

Vertical ground reaction force–time histories of sound Warmblood horses trotting on a treadmill

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