BACKGROUND: General numerical models of polyethylene wear and THA simulators suggest contact stresses influence wear. These models do not account for some patient-specific factors. Whether the relationship between patient-specific contact stress and wear apply in vivo is unclear. QUESTIONS/PURPOSES: We therefore determined whether (1) contact stress distribution at the prosthesis-cup interface and (2) hip geometry and cup inclination are related to wear in vivo. METHODS: We retrospectively reviewed the radiographs of 80 patients who had aseptic loosening of their THAs as determined by radiographic criteria. We determined linear penetration and volumetric wear using postoperative and last followup radiographs. Contact stress distribution was determined by the HIPSTRESS method. The biomechanical model was scaled to fit the patient's musculoskeletal geometry of the pelvis, trochanteric position, and cup inclination using the standard postoperative radiograph. RESULTS: Linear penetration and volumetric wear correlated with peak contact stress. Polyethylene wear was greater in THAs with a medial position of the greater trochanter and smaller inclination of the acetabular cup. CONCLUSIONS: Our observations suggest wear is specific to contact stresses in vivo. CLINICAL RELEVANCE: Long-term wear in a THA can be estimated using contact stress analysis based on analysis of the postoperative AP radiograph.
BACKGROUND: General numerical models of polyethylene wear and THA simulators suggest contact stresses influence wear. These models do not account for some patient-specific factors. Whether the relationship between patient-specific contact stress and wear apply in vivo is unclear. QUESTIONS/PURPOSES: We therefore determined whether (1) contact stress distribution at the prosthesis-cup interface and (2) hip geometry and cup inclination are related to wear in vivo. METHODS: We retrospectively reviewed the radiographs of 80 patients who had aseptic loosening of their THAs as determined by radiographic criteria. We determined linear penetration and volumetric wear using postoperative and last followup radiographs. Contact stress distribution was determined by the HIPSTRESS method. The biomechanical model was scaled to fit the patient's musculoskeletal geometry of the pelvis, trochanteric position, and cup inclination using the standard postoperative radiograph. RESULTS: Linear penetration and volumetric wear correlated with peak contact stress. Polyethylene wear was greater in THAs with a medial position of the greater trochanter and smaller inclination of the acetabular cup. CONCLUSIONS: Our observations suggest wear is specific to contact stresses in vivo. CLINICAL RELEVANCE: Long-term wear in a THA can be estimated using contact stress analysis based on analysis of the postoperative AP radiograph.
Authors: Andrew J Hui; Richard W McCalden; John M Martell; Steven J MacDonald; Robert B Bourne; Cecil H Rorabeck Journal: J Bone Joint Surg Am Date: 2003-03 Impact factor: 5.284
Authors: Shantanu Patil; Arnie Bergula; Peter C Chen; Clifford W Colwell; Darryl D D'Lima Journal: J Bone Joint Surg Am Date: 2003 Impact factor: 5.284
Authors: Gregory G Polkowski; Ryan M Nunley; Erin L Ruh; Brandon M Williams; Robert L Barrack Journal: Clin Orthop Relat Res Date: 2012-11 Impact factor: 4.176
Authors: Alberto Di Martino; Francesco Castagnini; Niccolò Stefanini; Barbara Bordini; Giuseppe Geraci; Federico Pilla; Francesco Traina; Cesare Faldini Journal: J Orthop Traumatol Date: 2021-07-18