OBJECTIVE: To compare the knee-alignment angle from a full-limb radiograph (mechanical axis) with the anatomic-axis angle as measured by physical examination using a goniometer and by 2 other radiographic methods. METHODS: The knee-alignment angle was measured in 114 knees of 57 subjects who had radiographic osteoarthritis (OA), with a Kellgren/Lawrence grade of >/=1 in at least one knee. The mechanical axis was defined as the angle formed by the intersection of 2 lines, one from the center of the head of the femur to the center of the tibial spines, and a second from the center of the talus to the center of the tibial spines. The anatomic axis was defined as the angle formed by 2 lines, each originating from a point bisecting the femur and tibia and converging at the center of the tibial spine tips. The anatomic-axis angle was measured by 3 methods: 1) physical examination using a goniometer, 2) a posteroanterior (PA) fixed-flexion knee radiograph (anatomic(PA) axis), and 3) an anteroposterior (AP) full-limb radiograph (anatomic(AP) axis). RESULTS: Significant correlations were found between the mechanical-axis angle and the anatomic-axis angle measured by each of the 3 methods: by goniometer (r = 0.70, P < 0.0001), by anatomic(PA) axis (r = 0.75, P < 0.0001), and by anatomic(AP) axis (r = 0.65, P < 0.0001). The anatomic axis was offset a mean 4.21 degrees valgus from the mechanical axis (3.5 degrees in women, 6.4 degrees in men), which was consistent across all methods. CONCLUSION: Knee alignment assessed clinically by goniometer or measured on a knee radiograph is correlated with the angle measured on the more cumbersome and costly full-limb radiograph. These alternative measures have the potential to provide useful information regarding the risk of progression of knee OA when a full-limb radiograph is not available.
OBJECTIVE: To compare the knee-alignment angle from a full-limb radiograph (mechanical axis) with the anatomic-axis angle as measured by physical examination using a goniometer and by 2 other radiographic methods. METHODS: The knee-alignment angle was measured in 114 knees of 57 subjects who had radiographic osteoarthritis (OA), with a Kellgren/Lawrence grade of >/=1 in at least one knee. The mechanical axis was defined as the angle formed by the intersection of 2 lines, one from the center of the head of the femur to the center of the tibial spines, and a second from the center of the talus to the center of the tibial spines. The anatomic axis was defined as the angle formed by 2 lines, each originating from a point bisecting the femur and tibia and converging at the center of the tibial spine tips. The anatomic-axis angle was measured by 3 methods: 1) physical examination using a goniometer, 2) a posteroanterior (PA) fixed-flexion knee radiograph (anatomic(PA) axis), and 3) an anteroposterior (AP) full-limb radiograph (anatomic(AP) axis). RESULTS: Significant correlations were found between the mechanical-axis angle and the anatomic-axis angle measured by each of the 3 methods: by goniometer (r = 0.70, P < 0.0001), by anatomic(PA) axis (r = 0.75, P < 0.0001), and by anatomic(AP) axis (r = 0.65, P < 0.0001). The anatomic axis was offset a mean 4.21 degrees valgus from the mechanical axis (3.5 degrees in women, 6.4 degrees in men), which was consistent across all methods. CONCLUSION: Knee alignment assessed clinically by goniometer or measured on a knee radiograph is correlated with the angle measured on the more cumbersome and costly full-limb radiograph. These alternative measures have the potential to provide useful information regarding the risk of progression of knee OA when a full-limb radiograph is not available.
Authors: A K O Wong; D Inglis; K A Beattie; A Doan; G Ioannidis; J Obeid; J D Adachi; A Papaioannou Journal: Osteoarthritis Cartilage Date: 2008-10-17 Impact factor: 6.576
Authors: Augustine C Lee; William F Harvey; Lori Lyn Price; Xingyi Han; Jeffrey B Driban; Maura D Iversen; Sima A Desai; Hans E Knopp; Chenchen Wang Journal: PM R Date: 2018-01-31 Impact factor: 2.298
Authors: A C Lee; W F Harvey; X Han; L L Price; J B Driban; R R Bannuru; C Wang Journal: Osteoarthritis Cartilage Date: 2018-01-31 Impact factor: 6.576
Authors: Klaus M Friedrich; Timothy Shepard; Gregory Chang; Ligong Wang; James S Babb; Mark Schweitzer; Ravinder Regatte Journal: Eur Radiol Date: 2009-12-16 Impact factor: 5.315
Authors: Virginia Byers Kraus; Sheng Feng; ShengChu Wang; Scott White; Maureen Ainslie; Alan Brett; Anthony Holmes; H Cecil Charles Journal: Arthritis Rheum Date: 2009-12
Authors: Amanda E Nelson; Larissa Braga; Andresa Braga-Baiak; Julius Atashili; Todd A Schwartz; Jordan B Renner; Charles G Helmick; Joanne M Jordan Journal: J Rheumatol Date: 2009-07-15 Impact factor: 4.666