Advanced Knee Structure Analysis (AKSA): a comparison of bone mineral density and trabecular texture measurements using computed tomography and high-resolution peripheral quantitative computed tomography of human knee cadavers

Chiba K(2011)In vivo structural analysis of subchondral trabecular bone in osteoarthritis of the hip using multi-detector row CT Osteoarthritis Cartilage 19 180-5

Ito M(2013)Enhanced trabecular micro-architecture of the femoral neck in hip osteoarthritis vs. healthy controls: a micro-computer tomography study in postmenopausal women Int Orthop 37 21-6

Osaki M(2012)Difference in subchondral cancellous bone between postmenopausal women with hip osteoarthritis and osteoporotic fracture: implication for fatigue microdamage, bone microarchitecture, and biomechanical properties Arthritis Rheum 64 3955-62

Uetani M(2013)Alterations to the subchondral bone architecture during osteoarthritis: bone adaptation vs endochondral bone formation Osteoarthritis Cartilage 21 331-8

Shindo H(2015)Knee joint subchondral bone structure alterations in active athletes: a cross-sectional case-control study Osteoarthritis Cartilage 23 2184-90

Djuric M(2000)Early morphometric and anisotropic change in periarticular cancellous bone in a model of experimental knee osteoarthritis quantified using microcomputed tomography Clin Biomech (Bristol, Avon) 15 624-31

Zagorac S(2003)Changes in the three-dimensional microstructure of human tibial cancellous bone in early osteoarthritis J Bone Joint Surg (Br) 85 906-12

Milovanovic P(2010)Differences in trabecular bone texture between knees with and without radiographic osteoarthritis detected by directional fractal signature method Osteoarthritis Cartilage 18 684-90

Djonic D(2013)Multicenter precision of cortical and trabecular bone quality measures assessed by high-resolution peripheral quantitative computed tomography J Bone Miner Res 28 524-36

Nikolic S(2012)An integrated segmentation and analysis approach for QCT of the knee to determine subchondral bone mineral density and texture IEEE Trans Biomed Eng 59 2449-58

Chiba K(2011)In vivo structural analysis of subchondral trabecular bone in osteoarthritis of the hip using multi-detector row CT Osteoarthritis Cartilage 19 180-5

Ito M(2013)Enhanced trabecular micro-architecture of the femoral neck in hip osteoarthritis vs. healthy controls: a micro-computer tomography study in postmenopausal women Int Orthop 37 21-6

Osaki M(2012)Difference in subchondral cancellous bone between postmenopausal women with hip osteoarthritis and osteoporotic fracture: implication for fatigue microdamage, bone microarchitecture, and biomechanical properties Arthritis Rheum 64 3955-62

Uetani M(2013)Alterations to the subchondral bone architecture during osteoarthritis: bone adaptation vs endochondral bone formation Osteoarthritis Cartilage 21 331-8

Shindo H(2015)Knee joint subchondral bone structure alterations in active athletes: a cross-sectional case-control study Osteoarthritis Cartilage 23 2184-90

Djuric M(2000)Early morphometric and anisotropic change in periarticular cancellous bone in a model of experimental knee osteoarthritis quantified using microcomputed tomography Clin Biomech (Bristol, Avon) 15 624-31

Zagorac S(2003)Changes in the three-dimensional microstructure of human tibial cancellous bone in early osteoarthritis J Bone Joint Surg (Br) 85 906-12

Milovanovic P(2010)Differences in trabecular bone texture between knees with and without radiographic osteoarthritis detected by directional fractal signature method Osteoarthritis Cartilage 18 684-90

Djonic D(2013)Multicenter precision of cortical and trabecular bone quality measures assessed by high-resolution peripheral quantitative computed tomography J Bone Miner Res 28 524-36

Nikolic S(2012)An integrated segmentation and analysis approach for QCT of the knee to determine subchondral bone mineral density and texture IEEE Trans Biomed Eng 59 2449-58