Statistical shape analysis-based determination of optimal midsagittal reference plane for evaluation of facial asymmetry.

Abstract

The purpose of this study was to determine, by statistical shape analysis of original and mirroredskeletal landmarks, the optimal landmark-based midsagittal reference plane for evaluation of facial asymmetry. The study sample comprised 69 patients with facial asymmetry (36 men, 33 women; mean age, 23.0±4.1years). All landmarks were obtained with cone-beam computed tomography using a 3-dimensional coordinate system. For identifying the landmark-based midsagittal reference plane, the 3 landmarks nearest to the symmetric midsagittal reference plane were selected by ordinary and generalized Procrustes analyses. To verify the 3-landmark-based midsagittal reference plane's compatibility with the symmetric midsagittal reference plane, asymmetry measurements were calculated and tested for each. The 3 nearest landmarks (nasion, anterior nasal spine, and posterior nasal spine) were selected for the 3-landmark-based midsagittal reference plane. The averages of the sums of the squared Euclidean distance and the squared Procrustes distance differences between the 2 configurations and shapes fabricated by the symmetric and landmark-based midsagittal reference planes, respectively, were calculated as 0.121±0.241 mm and 1.69×10(-6) ± 3.25×10(-6). The testing results for the symmetric and landmark-based midsagittal reference planes were almost the same. The results indicated that a 3-dimensional midsagittal reference plane constructed of nasion, anterior nasal spine, and posterior nasal spine could be a valuable tool for the evaluation of patients with facial asymmetry.