Abstract
Background: Aseptic loosening of total joint arthroplasty is characterised by osteolysis caused by osteoclasts and macrophages. Osteolysis occurs by acidification and dissolution of hydroxyapatite crystals then proteolysis of the bone collagen matrix. N-Telopeptide (NTx) and deoxypyridinolone (DPD) represent highly specific markers for bone resorption.
Aim: To investigate whether urinary NTx and DPD generated in-vivo can be used as bone markers in a small animal model of wear debris induced osteolysis.
Materials and Methods: 41 and 38 urinary samples were collected from mice at autopsy four weeks following either the implantation of clinically relevant ceramic particles or sham surgery into their femora and assayed for NTx and DPD respectively. Bone markers were corrected for urinary creatinine.
Results: The mean urinary NTx concentration for mice that underwent the implantation of clinically relevant ceramic particles was 95.0 nM BCE/mM creatinine compared to 85.3 nM BCE/mM creatinine for mice who had sham surgery (p = 0.8, 95%CI: −29.0 to 30.7). The mean urinary DPD concentration for mice that underwent the implantation of clinically relevant ceramic particles was 5.3 nM DPD/mM creatinine compared to 4.0 nM DPD/ mM creatinine for mice who had sham surgery (p = 0.07, 95%CI: −2.8 to 1.4).
Conclusion: The absolute values of NTx and DPD increased in mice that underwent the implantation of clinically relevant ceramic particles compared to sham surgery even though this was not statistically significant. Extending the post operative interval might allow both NTx and DPD to be utilised as bone markers of osteolysis in our small animal model of aseptic loosening.
Correspondence should be addressed to Dr Carlos Wigderowitz, Honorary Secretary of BORS, Division of Surgery & Oncology, Section of Orthopaedic & Trauma Surgery, Ninewells Hospital & Medical School Tort Centre, Dundee, DD1 9SY.