Validation of a novel clinical tool for monitoring distal limb stiffness.

OBJECTIVE

To validate a novel technique to measure limb stiffness in a clinical setting.

ANIMALS

Three horses and three ponies owned by the Royal Veterinary College.

PROCEDURES

Limb stiffness indices for both forelimbs were first derived using the gold standard of kinematic analysis. Using the same animals, limb stiffness indices were then calculated using portable floor scales to record weight and an electrogoniometer to record changes in metacarpophalangeal joint angle. The two techniques were then assessed for correlation and repeatability.

RESULTS

The repeatability of limb stiffness measurement using the novel clinical tool was considered to be good based on a small coefficient of variation (5.70%). The correlation of limb stiffness as derived by both methods was high ( = 0.78,  < 0.01). Limb stiffness was positively correlated with the mass of the subject ( = 0.85,  < 0.01), with heavier horses having greater limb stiffness.

CLINICAL RELEVANCE

This study has compared a novel method to measure distal forelimb stiffness non-invasively in a clinical setting to kinematic analysis in six equids. It has demonstrated that limb stiffness increases in a linear fashion with body mass consistent with the role of forelimbs providing energy storage. Because limb stiffness has been shown previously to alter with injury to the superficial digital flexor tendon, it is hypothesized that this technique will offer a practical technique for the clinician to assess limb stiffness in clinical cases. Further study will be necessary to determine its clinical usefulness in such cases.