Reproducibility of soft tissue landmarks on three-dimensional facial scans.

This study evaluated the reproducibility of 24 soft tissue landmarks on six three-dimensional (3D) facial scans. The scans were taken on a DSP400 facial scanner and were viewed using a customized software program. Intraoperator data were obtained by one researcher placing the 24 landmarks on all six scans a total of 30 times. Thirty different orthodontists of varying experience were then asked to place all 24 landmarks on each of the six facial scans in order to establish interoperator reproducibility. The standard deviations (SDs) from the mean were calculated from the data for each individual landmark in the x-, y-, and z-axes. For the intraoperator data, 12 of the 24 landmarks were found to be reproducible to within a 1 mm SD for each plane of space. The interoperator data showed lower reproducibility with just two landmarks showing less than a 1 mm SD in all three planes of space. Familiarity with 3D facial scans and associated software programs is important in improving reproducibility. In addition, the landmarks investigated in this study included those not often used. It is suggested that landmarks showing poor reproducibility for both inter- and intraoperator data should be avoided, if at all possible, or at least used with caution.

[1]  S Sindet-Pedersen,et al.  Comparison of the reliability of craniofacial anatomic landmarks based on cephalometric radiographs and three-dimensional CT scans. , 1997, The Cleft palate-craniofacial journal : official publication of the American Cleft Palate-Craniofacial Association.

[2]  W R Fright,et al.  A three-dimensional soft tissue analysis of fifteen patients with Class II, Division 1 malocclusions after bimaxillary surgery. , 1994, American journal of orthodontics and dentofacial orthopedics : official publication of the American Association of Orthodontists, its constituent societies, and the American Board of Orthodontics.

[3]  C. A. Hood,et al.  Validation of a Vision-Based, Three-Dimensional Facial Imaging System , 2003, The Cleft palate-craniofacial journal : official publication of the American Cleft Palate-Craniofacial Association.

[4]  J. P. Moss,et al.  The three-dimensional effects of orthodontic treatment on the facial soft tissues – a preliminary study. , 2002, British Dental Journal.

[5]  F. H. Beard,et al.  Stereophotogrammetry of the face. A preliminary investigation into the accuracy of a simplified system evolved for contour mapping by photography. , 1967, American journal of orthodontics.

[6]  V F Ferrario,et al.  Facial three-dimensional morphometry. , 1996, American journal of orthodontics and dentofacial orthopedics : official publication of the American Association of Orthodontists, its constituent societies, and the American Board of Orthodontics.

[7]  R. T. Lee,et al.  A prospective evaluation of Bass, Bionator and Twin Block appliances. Part II--The soft tissues. , 1998, European journal of orthodontics.

[8]  R. T. Lee,et al.  A prospective evaluation of Bass, Bionator and Twin Block appliances. Part I--The hard tissues. , 1998, European journal of orthodontics.

[9]  K F Moos,et al.  Three-dimensional modeling for modern diagnosis and planning in maxillofacial surgery. , 1996, The International journal of adult orthodontics and orthognathic surgery.

[10]  A D Linney,et al.  A three-dimensional soft tissue analysis of 16 skeletal class III patients following bimaxillary surgery. , 1992, The British journal of oral & maxillofacial surgery.

[11]  L. Farkas Anthropometry of the head and face , 1994 .

[12]  W J Houston,et al.  The analysis of errors in orthodontic measurements. , 1983, American journal of orthodontics.

[13]  A. Linney,et al.  A three-dimensional analysis of bone and soft tissue to bone ratio of movements in 17 Skeletal II patients following orthognathic surgery. , 1993, European journal of orthodontics.

[14]  W R Fright,et al.  A three dimensional analysis of soft and hard tissue changes following bimaxillary orthognathic surgery in skeletal III patients. , 1992, The British journal of oral & maxillofacial surgery.

[15]  R M Watson,et al.  Laser scanning of the ear identifying the shape and position in subjects with normal facial symmetry. , 2000, International journal of oral and maxillofacial surgery.

[16]  Mohammad Y Hajeer,et al.  Three-dimensional imaging in orthognathic surgery: the clinical application of a new method. , 2002, The International journal of adult orthodontics and orthognathic surgery.