OBJECTIVE: Before the re-introduction of the current generation of total hip resurfacing arthroplasty, component loosening and osteolysis were of great concern to the orthopaedic community. Early, mid- and long-term clinical results are encouraging, but component loosening still exists. MATERIALS AND METHODS: Macroscopic, contact radiographic and histopathological analyses after undecalcified preparation of bone tissue specimens were performed. To investigate the frequency and morphological patterns of the loosening of the femoral component, we analysed a series of 190 retrieved femoral remnants that were revised for aseptic failures. RESULTS: Thirty-five (18.4%) hips were revised for clinical and/or radiographic loosening of the femoral component. Pseudoarthrosis (n = 17; median in situ time: 16 weeks, interquartile range [IQR]: 9 to 34), collapsed osteonecrosis (n = 5; median in situ time: 79 weeks, IQR: 63 to 97), cement-socket debonding (n = 3; median in situ time: 89 weeks, IQR: 54 to 97) and at later follow-up bone-cement loosening (n = 10; median in situ time: 175 weeks; IQR 112 to 198; p =0.005) were distinct patterns of the femoral remnant-implant loosening. Fibrocartilaginous metaplasia of interface bone trabeculae (n = 38; median in situ time: 61 weeks, IQR: 32 to 138) was strongly associated with femoral component loosening (p = 0.009). Both the trabecular hyperosteoidosis (n = 32; median in situ time: 71 weeks, IQR 50 to 129) and excessive intraosseous lymphocyte infiltration (n = 12; median in situ time: 75 weeks, IQR 51 to 98) at the bone-cement interface correlated strongly with fibrocartilaginous metaplasia (p = 0.001 and p = 0.016 respectively) and all three lesions were associated with the female gender (p = 0.021, p = 0.009, and p = 0.051). CONCLUSION: Femoral component loosening at early follow-up was mostly caused by pathological changes of the femoral remnant bone tissue: pseudoarthrosis and collapsed osteonecrosis. Fibrocartilaginous metaplasia was frequently observed in hips with femoral component loosening. The potential role of interface hyperosteoidosis as a precursor lesion of bone-cement loosening and its possible association with delayed type hypersensitivity reaction are discussed.
OBJECTIVE: Before the re-introduction of the current generation of total hip resurfacing arthroplasty, component loosening and osteolysis were of great concern to the orthopaedic community. Early, mid- and long-term clinical results are encouraging, but component loosening still exists. MATERIALS AND METHODS: Macroscopic, contact radiographic and histopathological analyses after undecalcified preparation of bone tissue specimens were performed. To investigate the frequency and morphological patterns of the loosening of the femoral component, we analysed a series of 190 retrieved femoral remnants that were revised for aseptic failures. RESULTS: Thirty-five (18.4%) hips were revised for clinical and/or radiographic loosening of the femoral component. Pseudoarthrosis (n = 17; median in situ time: 16 weeks, interquartile range [IQR]: 9 to 34), collapsed osteonecrosis (n = 5; median in situ time: 79 weeks, IQR: 63 to 97), cement-socket debonding (n = 3; median in situ time: 89 weeks, IQR: 54 to 97) and at later follow-up bone-cement loosening (n = 10; median in situ time: 175 weeks; IQR 112 to 198; p =0.005) were distinct patterns of the femoral remnant-implant loosening. Fibrocartilaginous metaplasia of interface bone trabeculae (n = 38; median in situ time: 61 weeks, IQR: 32 to 138) was strongly associated with femoral component loosening (p = 0.009). Both the trabecular hyperosteoidosis (n = 32; median in situ time: 71 weeks, IQR 50 to 129) and excessive intraosseous lymphocyte infiltration (n = 12; median in situ time: 75 weeks, IQR 51 to 98) at the bone-cement interface correlated strongly with fibrocartilaginous metaplasia (p = 0.001 and p = 0.016 respectively) and all three lesions were associated with the female gender (p = 0.021, p = 0.009, and p = 0.051). CONCLUSION:Femoral component loosening at early follow-up was mostly caused by pathological changes of the femoral remnant bone tissue: pseudoarthrosis and collapsed osteonecrosis. Fibrocartilaginous metaplasia was frequently observed in hips with femoral component loosening. The potential role of interface hyperosteoidosis as a precursor lesion of bone-cement loosening and its possible association with delayed type hypersensitivity reaction are discussed.
Authors: Nadim James Hallab; Marco Caicedo; Rachel Epstein; Kyron McAllister; Joshua J Jacobs Journal: J Biomed Mater Res A Date: 2010-02 Impact factor: 4.396
Authors: Michael M Morlock; Nick Bishop; Jozef Zustin; Michael Hahn; Wolfgang Rüther; Michael Amling Journal: J Bone Joint Surg Am Date: 2008-08 Impact factor: 5.284
Authors: H Pandit; M Vlychou; D Whitwell; D Crook; R Luqmani; S Ostlere; D W Murray; N A Athanasou Journal: Virchows Arch Date: 2008-09-04 Impact factor: 4.064
Authors: Christopher S J Fang; Paul Harvie; Christopher L M H Gibbons; Duncan Whitwell; Nicholas A Athanasou; Simon Ostlere Journal: Skeletal Radiol Date: 2008-05-14 Impact factor: 2.199
Authors: H Pandit; S Glyn-Jones; P McLardy-Smith; R Gundle; D Whitwell; C L M Gibbons; S Ostlere; N Athanasou; H S Gill; D W Murray Journal: J Bone Joint Surg Br Date: 2008-07
Authors: Matthias Krause; Stefan Breer; Michael Hahn; Wolfgang Rüther; Michael M Morlock; Michael Amling; Jozef Zustin Journal: Int Orthop Date: 2012-01-11 Impact factor: 3.075
Authors: Arthur Gontarewicz; Oliver Niggemeyer; Lars Tharun; Livia Grancicova; Wolfgang Rüther; Jozef Zustin Journal: BMJ Open Date: 2012-08-13 Impact factor: 2.692
Authors: Andrea Hinsch; Eik Vettorazzi; Michael M Morlock; Wolfgang Rüther; Michael Amling; Jozef Zustin Journal: BMC Med Date: 2011-10-13 Impact factor: 8.775