Rationale and Objectives. Previous studies have shown dramatic short-term bone loss following ovariectomy. The purpose of this study was to evaluate mid- to long-term effects of estrogen deficiency on microarchitecture of tibial trabecular bone using a high-resolution microcomputed tomography (Micro-CT).

Materials and Methods. Twenty-eight female rats were divided into two equal groups: ovariectomized (OVX, N = 14) and sham-operated (SOVX, N = 14), which in turn were divided into two equal subgroups (euthanized either 6 or 16 weeks after surgery). The left tibia of each animal was scanned with a high-resolution micro-CT (Skyscan 1072 micro-CT system; SkyScan, Aartselaar, Belgium). The Micro-CT system used an X-ray CCD-camera with a cooled 1024 × 1024-pixel 12-bit sensor.

Results. Ovariectomy significantly decreased the ratio of bone volume:tissue volume (−42% at 6 weeks and −69% at 16 weeks) and trabecular thickness (−13% at 6 weeks and −30% at 16 weeks), while significantly increasing trabecular separation (+73% at 6 weeks and +100% at 16 weeks) and structure model index (+15% at 6 weeks and +48% at 16 weeks), when compared with SOVX, from 6 to 16 weeks.

Conclusion. Based on the experimental results, there are alterations of trabecular microarcihtecture in the tibia following mid- and long-term estrogen deficiency. More rod-shaped trabeculae are formed with increasing duration of estrogen deficiency. The high-resolution micro-CT imaging system is useful to evaluate the mid- to long-term trabecular changes seen with estrogen deficiency or osteoporosis.