B Li1, R M Aspden. 1. Department of Orthopaedic Surgery, University of Aberdeen, Scotland.
Abstract
OBJECTIVE: To determine the material properties of the subchondral bone plate in patients with osteoarthritis or osteoporosis. METHODS: Femoral heads were obtained after surgical removal from age and sex matched groups of patients with either osteoporosis (OP), after a fractured neck of femur, or osteoarthritis (OA) and compared with a normal group. The mechanical stiffness, density, and composition of the subchondral bone plate from sites selected to represent areas of heavy, intermittent, and light loading were measured. RESULTS: Overall, OP bone was the least stiff and dense, followed by OA bone; normal bone was stiffer and more dense (p < 0.05). Though OP bone contained less mineral, the organic and water contents were increased in proportion suggesting no change in the relative amount of organic matrix. OA bone was also hypomineralised (p < 0.05) but had different organic and water fractions suggesting a defect in the matrix. Site variation of most properties was small, though across all the groups the superior region was significantly stiffer than the inferior. CONCLUSION: This study shows that subchondral bone plate is less stiff than normal in both OP and OA and so cannot, by itself, explain the preserving of the overlying cartilage in OP while aiding its destruction in OA. However, the subchondral bone plate is only one part of the bony structure of the femoral head and changes in the cancellous bone need to be considered. The generalised changes in bone composition found in patients with OA support the hypothesis that the disease could involve the bone in the primary pathogenesis.
OBJECTIVE: To determine the material properties of the subchondral bone plate in patients with osteoarthritis or osteoporosis. METHODS: Femoral heads were obtained after surgical removal from age and sex matched groups of patients with either osteoporosis (OP), after a fractured neck of femur, or osteoarthritis (OA) and compared with a normal group. The mechanical stiffness, density, and composition of the subchondral bone plate from sites selected to represent areas of heavy, intermittent, and light loading were measured. RESULTS: Overall, OP bone was the least stiff and dense, followed by OA bone; normal bone was stiffer and more dense (p < 0.05). Though OP bone contained less mineral, the organic and water contents were increased in proportion suggesting no change in the relative amount of organic matrix. OA bone was also hypomineralised (p < 0.05) but had different organic and water fractions suggesting a defect in the matrix. Site variation of most properties was small, though across all the groups the superior region was significantly stiffer than the inferior. CONCLUSION: This study shows that subchondral bone plate is less stiff than normal in both OP and OA and so cannot, by itself, explain the preserving of the overlying cartilage in OP while aiding its destruction in OA. However, the subchondral bone plate is only one part of the bony structure of the femoral head and changes in the cancellous bone need to be considered. The generalised changes in bone composition found in patients with OA support the hypothesis that the disease could involve the bone in the primary pathogenesis.
Authors: D D McErlain; C T G Appleton; R B Litchfield; V Pitelka; J L Henry; S M Bernier; F Beier; D W Holdsworth Journal: Osteoarthritis Cartilage Date: 2007-09-27 Impact factor: 6.576
Authors: Tuhina Neogi; Michael A Bowes; Jingbo Niu; Kevin M De Souza; Graham R Vincent; Joyce Goggins; Yuqing Zhang; David T Felson Journal: Arthritis Rheum Date: 2013-08
Authors: Alexandra S Gersing; Pia M Jungmann; Benedikt J Schwaiger; Julia Zarnowski; Felix K Kopp; Saskia Landwehr; Martin Sauerschnig; Gabby B Joseph; Andreas B Imhoff; Ernst J Rummeny; Jan S Kirschke; Thomas Baum Journal: J ISAKOS Date: 2018-06-28