Abstract
Periprosthetic osteolysis is a major clinical problem that limits the long-term survival of total joint arthroplasties. Osteolysis is induced by implant-derived wear particles, primarily from the polyethylene bearing surfaces. This study examined two hypotheses. First, that similar mechanisms are responsible for osteolysis induced by polyethylene and titanium particles. Second, that lymphocytes do not play a major role in particle-induced osteolysis. To test these hypotheses, we used the murine calvarial model that we have previously used to examine titanium-induced osteolysis. Polyethylene particles rapidly induced osteolysis in the murine calvaria 5-7 days after implantation. The polyethylene-induced osteolysis was associated with large numbers of osteoclasts as well as the formation of a thick periosteal fibrous tissue layer with numerous macrophages containing phagocytosed polyethylene particles. Polyethylene-induced osteolysis was rapidly repaired and was undetectable by day 21 after implantation. Lymphocytes were noted in the fibrous layer of wild-type mice. However, the amount of osteolysis and cytokine production induced by polyethylene particles was not substantially affected by the lack of lymphocytes in Pfp/Rag2 double knock out mice. All of these findings are similar to our observations of osteolysis induced by titanium particles. These results provide strong support for both of our hypotheses: that similar mechanisms are responsible for osteolysis induced by polyethylene and titanium particles and that lymphocytes do not play a major role in particle-induced osteolysis.
Original language | English (US) |
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Pages (from-to) | 376-383 |
Number of pages | 8 |
Journal | Journal of Orthopaedic Research |
Volume | 23 |
Issue number | 2 |
DOIs | |
State | Published - Mar 2005 |
Externally published | Yes |
Bibliographical note
Funding Information:The authors thank Hoechst Celanase (Charlotte, NC) for donation of the polyethylene particles, John Davidson of the Case Western Reserve University, Department of Macromolecular Science and Engineering, Electron Microscopy Laboratory for assistance with scanning electron microscopy, Jen Mikulan for assistance with animal surgery, and Theresa Pizzuto for histological preparations. This study was supported by NIH AR43769 to EMG. The authors have no professional or financial affiliations that may be perceived to have biased the presentation.
Keywords
- Lymphocytes
- Murine
- Osteolysis
- Polyethylene
- Titanium