Abstract
OBJECTIVE: We studied histological changes in the cell populations of subchondral bone marrow resulting from inflammation in animal models of arthritis. Inflammation in intraosseous spaces and the effect of treatment with the aminobisphosphonate zoledronate were assessed. METHODS: Peripheral blood, femoral bone marrow, and spleen cells were harvested from carrageenan-induced arthritis Sprague-Dawley rats; fluorescence stained for CD3, CD8, CD4, CD11b/c, anti-mononuclear phagocyte (MNP), CD3/CD8, CD3/CD4, and MNP/CD11b/c; and evaluated by flow cytometry. Arthritis was induced in New Zealand white rabbits in 5 treatment groups: normal, arthritis, zoledronate-treated from arthritis induction, or 2 or 4 weeks after induction. Animals were euthanized after 7 weeks and distal femoral condyles were decalcified, processed, sectioned, and stained. Sections were evaluated for several cell types and histological features relevant to inflammation, which were assigned a categorical grade from 0 (healthy morphology) to 3 (extensive inflammation). Tidemark was evaluated on a continuous scale. RESULTS: Significantly elevated levels of CD3+CD4+ lymphocytes and CD11b/c+MNP+ monocytes were observed in the bone marrow of arthritic rats, consistent with intraosseous inflammation. No corresponding increase was observed in peripheral blood or spleen. In rabbits, the histology of lymphocytes, mononuclear cells, fibrocytes, fibrosis, lipocytes, and plasma cells varied significantly across treatment groups. Controls exhibited normal histology. In arthritis, these cell types and tissues displayed a shift of 1-2 grades higher (toward inflammation). Intact tidemark was reduced. Following zoledronate treatment, mononuclear cells, fibrocytes, fibrosis, and lipocytes were significantly altered toward normal, and tidemark shifted toward normal. CONCLUSION: Intraosseous bone marrow inflammation was observed in carrageenan-induced inflammatory arthritis in rats and rabbits. Zoledronate administration diminished the intraosseous inflammatory response.