TY - JOUR
T1 - Quantification of the radial torsion angle with computerized tomography in cadaver specimens
AU - Bindra, Randip R.
AU - Cole, R. Jeffrey
AU - Yamaguchi, Ken
AU - Evanoff, Bradley A.
AU - Pilgram, Thomas K.
AU - Gilula, Louis A.
AU - Gelberman, Richard H.
PY - 1997/6
Y1 - 1997/6
N2 - Torsion of a long bone is the twist along its longitudinal axis; torsion of the radius is defined by the angle between the proximal and distal metaphyses in the transverse plane. Measurement of the radial torsion angle provides a means of detection and quantification of malrotation after a fracture. The purpose of the current study was to develop and standardize a technique for the measurement of torsion of the radius. Axial computerized tomographic images of thirty-nine pairs of dry cadaver specimens of normal radii, and an additional four pairs of radii with a unilateral deformity of the distal metaphysis that was consistent with a previous fracture, were studied and a measurement protocol was established. The radial torsion angle was measured by three independent observers on two separate occasions. Reproducibility of the technique was determined with use of the intraclass correlation coefficient to express both interobserver and intraobserver reliability. Consistency of measurements between observers and by the same observer was high, with intraclass correlation coefficients ranging from 0.87 to 0.94. The mean torsion angle for the eighty-two normal radii in the study was 32.6 degrees (95 per cent confidence interval of the mean, 30.3 to 34.9 degrees; range, 1.4 to 58.8 degrees). There were small variations in torsion angle between the two radii of each normal pair (mean side-to-side difference, 4.9 degrees; 95 per cent confidence interval of the mean, 3.5 to 6.3 degrees). The mean torsion angle of the four radii with a malunited fracture was 10.4 degrees (95 per cent confidence interval of the mean, 5.7 to 15.1 degrees), and the mean side-to-side difference in the pairs containing these radii was 24.1 degrees (95 per cent confidence interval of the mean, 8.5 to 39.6 degrees; p < 0.0001 compared with the normal radii). CLINICAL RELEVANCE: Measurements of torsion may be useful for the planning of corrective osteotomies of the radius. Conventional computerized tomographic scanning provides a simple, reproducible technique for the measurement of radial torsion that can be accurately applied. Images of booth forearms allow the direction of rotation of the radius to be identified, with a decrease in the torsion angle indicating supination of the distal fragment and an increase indicating pronation. Because of the wide range of radial torsion angles in normal individuals, values should be interpreted with reference to the contralateral side.
AB - Torsion of a long bone is the twist along its longitudinal axis; torsion of the radius is defined by the angle between the proximal and distal metaphyses in the transverse plane. Measurement of the radial torsion angle provides a means of detection and quantification of malrotation after a fracture. The purpose of the current study was to develop and standardize a technique for the measurement of torsion of the radius. Axial computerized tomographic images of thirty-nine pairs of dry cadaver specimens of normal radii, and an additional four pairs of radii with a unilateral deformity of the distal metaphysis that was consistent with a previous fracture, were studied and a measurement protocol was established. The radial torsion angle was measured by three independent observers on two separate occasions. Reproducibility of the technique was determined with use of the intraclass correlation coefficient to express both interobserver and intraobserver reliability. Consistency of measurements between observers and by the same observer was high, with intraclass correlation coefficients ranging from 0.87 to 0.94. The mean torsion angle for the eighty-two normal radii in the study was 32.6 degrees (95 per cent confidence interval of the mean, 30.3 to 34.9 degrees; range, 1.4 to 58.8 degrees). There were small variations in torsion angle between the two radii of each normal pair (mean side-to-side difference, 4.9 degrees; 95 per cent confidence interval of the mean, 3.5 to 6.3 degrees). The mean torsion angle of the four radii with a malunited fracture was 10.4 degrees (95 per cent confidence interval of the mean, 5.7 to 15.1 degrees), and the mean side-to-side difference in the pairs containing these radii was 24.1 degrees (95 per cent confidence interval of the mean, 8.5 to 39.6 degrees; p < 0.0001 compared with the normal radii). CLINICAL RELEVANCE: Measurements of torsion may be useful for the planning of corrective osteotomies of the radius. Conventional computerized tomographic scanning provides a simple, reproducible technique for the measurement of radial torsion that can be accurately applied. Images of booth forearms allow the direction of rotation of the radius to be identified, with a decrease in the torsion angle indicating supination of the distal fragment and an increase indicating pronation. Because of the wide range of radial torsion angles in normal individuals, values should be interpreted with reference to the contralateral side.
UR - http://www.scopus.com/inward/record.url?scp=0030925894&partnerID=8YFLogxK
U2 - 10.2106/00004623-199706000-00005
DO - 10.2106/00004623-199706000-00005
M3 - Article
C2 - 9199379
AN - SCOPUS:0030925894
SN - 0021-9355
VL - 79
SP - 833
EP - 837
JO - Journal of Bone and Joint Surgery - Series A
JF - Journal of Bone and Joint Surgery - Series A
IS - 6
ER -