Abstract
Disuse-induced bone loss during stall confinement and immobilization is a major concern in horses because it impairs recovery and increases susceptibility to further injury. Experimental models are needed to evaluate therapeutic options, but most available equine models rely on cast immobilization, which is technically demanding and may be associated with complications. This study aimed to assess a simpler and less restrictive model to induce a quantifiable decrease in bone density in horses. Six French Standardbred horses underwent eight weeks of stall confinement, with a wooden wedge fitted to one front foot to elevate the heels during the last four weeks. Bone density was assessed using computed tomography (CT) examinations of both forelimbs performed at the beginning (M0) and after the confinement period (M2). Serum markers of bone metabolism (CTX-I, osteocalcin, bone-specific alkaline phosphatase, and hydroxyproline) were analyzed monthly from baseline to 2 months post confinement. Statistical analysis used Wilcoxon signed-rank tests and mixed models as appropriate. Computed tomography revealed a significant decrease in bone density after confinement (p < 0.05), more pronounced distally in the wedge limb. CTX-I levels varied with physical activity. This model provides a practical and reproducible alternative to cast immobilization for inducing equine bone demineralization.