Short-term stall housing of horses results in changes of markers of bone metabolism

Abstract

In previous research, stall-housing growing horses resulted in decreased bone mineral content (BMC) of the third metacarpal (MCIII) compared to pasture-housing. To determine whether stall confinement negatively impacts bone, regardless of age, and whether the effects could be reversed upon return to pasture, 12 mature horses (5-15 years) and 12 yearlings were pair-matched by age and gender and randomly assigned to one of two treatment groups: pasture (PT) or stall (ST). Horses on PT remained there for the 84-d study, while horses on ST spent the first 28 d in stalls and the remaining 56 d on pasture. Radiographs and blood samples were taken on d 0 for baseline determinants. Radiographs and blood were taken every 7 d for radiographic photodensitometry estimates of BMC and analysis of osteocalcin (OC) and C-telopeptide (CTX-1)-markers of bone formation and degradation. There were no differences in BMC between treatments at the medial cortex of MCIII in mature horses. There were treatment (P=0.05) and day (P<0.01) differences in BMC at the lateral cortex of MCIII. In yearling horses, the BMC of the medial cortex of MCIII had a day difference with the lowest overall average at d 21 and highest at d 70 (P=0.04). There were day by treatment differences (P<0.05) for both OC and CTX-1 with the mature and yearling horses on ST having lower OC on d 14 than PT horses (P<0.05) indicative of reduced bone formation. In mature and yearling ST horses, CTX-1 was greater on d 14 and 28 compared to horses on PT (P≤0.05) suggesting greater bone resorption. Results from serum markers of bone formation and deformation confirm that stalling negatively impacts bone formation in horses regardless of age.