Background: Intrauterine protein restriction in rodent models is associated with low bone mass which persists into adulthood. This study examined how early nutritional compromise affects the mechanical and structural properties of spinal tissues in sheep throughout the lifecourse.

Methods: Lumbar spines were removed from 19 sheep; 5 control animals and 14 that received a restricted diet in-utero. Eight animals (2 control/6 diet) were sacrificed at a mean age of 2.7 years and eleven at a mean age of 4.4 yrs. Two motion segments from each spine were tested on a hydraulically-controlled materials testing machine to determine their mechanical properties. Vertebral bodies were assessed for a number of structural parameters including cortical thickness and area, and regional trabecular density.

Results: Younger animals in the diet group showed a 25% reduction in forward bending stiffness (p< 0.05) and a 32% reduction in extension strength (p< 0.05) compared to controls of the same age. Furthermore, these young animals showed a 25% reduction in the thickness of the anterior cortex (p< 0.001) and an 18% reduction in the thickness of the superior cortex (p< 0.02). In older animals, no differences were observed in any of the mechanical parameters examined between diet and control groups, although animals in the diet group showed an average increase in cortical thickness of 14%, across all regions (p< 0.01).

Conclusions: These results suggest that early nutritional challenge can have detrimental effects on the mechanical and structural properties of spinal tissues in young animals but that adaptation occurs over the lifecourse to compensate for these differences in older animals.

Conflicts of Interest: None

Source of Funding: None