A three-dimensional computerized mesh diagram analysis and its application in soft tissue facial morphometry
Identifieur interne : 009A26 ( Main/Exploration ); précédent : 009A25; suivant : 009A27A three-dimensional computerized mesh diagram analysis and its application in soft tissue facial morphometry
Auteurs : Virgilio F. Ferrario [Italie] ; Chiarella Sforza [Italie] ; Johannes H. Schmitz [Italie] ; Alessandro Miani Jr. [Italie] ; Graziano Serrao [Italie]Source :
- American Journal of Orthodontics & Dentofacial Orthopedics [ 0889-5406 ] ; 1998.
English descriptors
- KwdEn :
- 3dfm, 3dfm method, Alal alar coml comr, American journal, Anteroposterior, Anteroposterior dimension, Black circles, Canl canr, Canthus, Cheek right cheek, Clinical application, Commissura, Computerized, Computerized mesh diagram analysis, Dentofacial, Dentofacial orthopedics october, Dentofacial orthopedics volume, Difference factor, Difference factor shape difference vector, Difference vectors, Displacement vectors, Facial, Facial landmarks, Facial morphometry, Facial shape, Facial size, Female landmark, Female norms, Female patient, Female reference meshes, Ferrario, First step, Frontal, Frontal view, Global difference, Global difference landmark trichion, Gonion, Gray circles, Grid, Independent quantifications, Labial, Labial commissura right labial commissura, Landmark, Lateral, Lateral canthus, Lateral canthus right, Male landmark, Male patient, Mesh, Mesh analysis, Mesh diagram, Mesh diagram analysis, Module, Morphometry, Nasal alae, Normal references, Original size, Orthod, Orthod dentofacial orthop, Orthodontic patients, Orthop, Orthopedics, Parallelepiped, Patient landmark, Reference landmark, Reference mesh, Relevant displacement vectors, Second step, Sforza, Shape differences, Shape discrepancies, Size difference, Soft tissue, Soft tissue gonion right, Soft tissue landmarks, Tissue gonion mesh shape coefficients, Tissue nasion pronasale subnasale, Tissue pogonion, Tragus, Tragus landmarks, Tragus right tragus, Vertical projection, Young adult.
- Teeft :
- 3dfm, 3dfm method, Alal alar coml comr, American journal, Anteroposterior, Anteroposterior dimension, Black circles, Canl canr, Canthus, Cheek right cheek, Clinical application, Commissura, Computerized, Computerized mesh diagram analysis, Dentofacial, Dentofacial orthopedics october, Dentofacial orthopedics volume, Difference factor, Difference factor shape difference vector, Difference vectors, Displacement vectors, Facial, Facial landmarks, Facial morphometry, Facial shape, Facial size, Female landmark, Female norms, Female patient, Female reference meshes, Ferrario, First step, Frontal, Frontal view, Global difference, Global difference landmark trichion, Gonion, Gray circles, Grid, Independent quantifications, Labial, Labial commissura right labial commissura, Landmark, Lateral, Lateral canthus, Lateral canthus right, Male landmark, Male patient, Mesh, Mesh analysis, Mesh diagram, Mesh diagram analysis, Module, Morphometry, Nasal alae, Normal references, Original size, Orthod, Orthod dentofacial orthop, Orthodontic patients, Orthop, Orthopedics, Parallelepiped, Patient landmark, Reference landmark, Reference mesh, Relevant displacement vectors, Second step, Sforza, Shape differences, Shape discrepancies, Size difference, Soft tissue, Soft tissue gonion right, Soft tissue landmarks, Tissue gonion mesh shape coefficients, Tissue nasion pronasale subnasale, Tissue pogonion, Tragus, Tragus landmarks, Tragus right tragus, Vertical projection, Young adult.
Abstract
Abstract: A modified computerized mesh diagram analysis that allows rapid and independent quantifications of soft tissue facial size and shape in the three-dimensional space is presented. Normal references are provided, and the application of the method is also exemplified by the analysis of two maxillofacial surgical patients. The Three-Dimensional Facial Morphometry method has been used for the collection of the x, y, z coordinates of 22 soft tissue landmarks in 50 men and 50 women (all healthy young white adults). The method detects the three-dimensional coordinates of retroreflective, wireless markers positioned on selected facial landmarks with two charge-coupled device cameras, working in the infrared field. The midpoint between the right and left tragus landmarks served as the origin of the coordinate axes, and the landmark coordinates were rotated, setting the intercantheal line horizontal on both the frontal and the horizontal planes, and the Camper’s plane inclined at -7.5° on the sagittal plane. A standardized mesh of equidistant horizontal (dimension: half the upper face width), vertical (half the vertical projection of upper face height), and anteroposterior (half the horizontal projection of upper face depth) lines was consequently constructed. The lattice was replicated on the entire face and comprised 84 parallelepipeds. Both male and female reference meshes had a harmonious and symmetric appearance, with gender differences in facial size but not in facial shape. The standard normal reference was superimposed on the patient’s tracing, and the global (size plus shape) difference was then evaluated by the calculation of the relevant displacement vectors for each soft tissue landmark. A global difference factor was calculated as the sum of the modules of all the displacement vectors. Consequently, a size normalization was performed, and the shape difference (size-standardized) was then evaluated by the calculation of new relevant displacement vectors for each landmark, as well as a shape–global difference vectors. (Am J Orthod Dentofacial Orthop 1998;114:404-13)
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DOI: 10.1016/S0889-5406(98)70185-4
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vectors</term><term>Displacement vectors</term><term>Facial</term><term>Facial landmarks</term><term>Facial morphometry</term><term>Facial shape</term><term>Facial size</term><term>Female landmark</term><term>Female norms</term><term>Female patient</term><term>Female reference meshes</term><term>Ferrario</term><term>First step</term><term>Frontal</term><term>Frontal view</term><term>Global difference</term><term>Global difference landmark trichion</term><term>Gonion</term><term>Gray circles</term><term>Grid</term><term>Independent quantifications</term><term>Labial</term><term>Labial commissura right labial commissura</term><term>Landmark</term><term>Lateral</term><term>Lateral canthus</term><term>Lateral canthus right</term><term>Male landmark</term><term>Male patient</term><term>Mesh</term><term>Mesh analysis</term><term>Mesh diagram</term><term>Mesh diagram analysis</term><term>Module</term><term>Morphometry</term><term>Nasal alae</term><term>Normal references</term><term>Original size</term><term>Orthod</term><term>Orthod dentofacial orthop</term><term>Orthodontic patients</term><term>Orthop</term><term>Orthopedics</term><term>Parallelepiped</term><term>Patient landmark</term><term>Reference landmark</term><term>Reference mesh</term><term>Relevant displacement vectors</term><term>Second step</term><term>Sforza</term><term>Shape differences</term><term>Shape discrepancies</term><term>Size difference</term><term>Soft tissue</term><term>Soft tissue gonion right</term><term>Soft tissue landmarks</term><term>Tissue gonion mesh shape coefficients</term><term>Tissue nasion pronasale subnasale</term><term>Tissue pogonion</term><term>Tragus</term><term>Tragus landmarks</term><term>Tragus right tragus</term><term>Vertical projection</term><term>Young adult</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>3dfm</term><term>3dfm method</term><term>Alal alar coml comr</term><term>American journal</term><term>Anteroposterior</term><term>Anteroposterior 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quantifications</term><term>Labial</term><term>Labial commissura right labial commissura</term><term>Landmark</term><term>Lateral</term><term>Lateral canthus</term><term>Lateral canthus right</term><term>Male landmark</term><term>Male patient</term><term>Mesh</term><term>Mesh analysis</term><term>Mesh diagram</term><term>Mesh diagram analysis</term><term>Module</term><term>Morphometry</term><term>Nasal alae</term><term>Normal references</term><term>Original size</term><term>Orthod</term><term>Orthod dentofacial orthop</term><term>Orthodontic patients</term><term>Orthop</term><term>Orthopedics</term><term>Parallelepiped</term><term>Patient landmark</term><term>Reference landmark</term><term>Reference mesh</term><term>Relevant displacement vectors</term><term>Second step</term><term>Sforza</term><term>Shape differences</term><term>Shape discrepancies</term><term>Size difference</term><term>Soft tissue</term><term>Soft tissue gonion right</term><term>Soft tissue landmarks</term><term>Tissue gonion mesh shape coefficients</term><term>Tissue nasion pronasale subnasale</term><term>Tissue pogonion</term><term>Tragus</term><term>Tragus landmarks</term><term>Tragus right tragus</term><term>Vertical projection</term><term>Young adult</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Abstract: A modified computerized mesh diagram analysis that allows rapid and independent quantifications of soft tissue facial size and shape in the three-dimensional space is presented. Normal references are provided, and the application of the method is also exemplified by the analysis of two maxillofacial surgical patients. The Three-Dimensional Facial Morphometry method has been used for the collection of the x, y, z coordinates of 22 soft tissue landmarks in 50 men and 50 women (all healthy young white adults). The method detects the three-dimensional coordinates of retroreflective, wireless markers positioned on selected facial landmarks with two charge-coupled device cameras, working in the infrared field. The midpoint between the right and left tragus landmarks served as the origin of the coordinate axes, and the landmark coordinates were rotated, setting the intercantheal line horizontal on both the frontal and the horizontal planes, and the Camper’s plane inclined at -7.5° on the sagittal plane. A standardized mesh of equidistant horizontal (dimension: half the upper face width), vertical (half the vertical projection of upper face height), and anteroposterior (half the horizontal projection of upper face depth) lines was consequently constructed. The lattice was replicated on the entire face and comprised 84 parallelepipeds. Both male and female reference meshes had a harmonious and symmetric appearance, with gender differences in facial size but not in facial shape. The standard normal reference was superimposed on the patient’s tracing, and the global (size plus shape) difference was then evaluated by the calculation of the relevant displacement vectors for each soft tissue landmark. A global difference factor was calculated as the sum of the modules of all the displacement vectors. Consequently, a size normalization was performed, and the shape difference (size-standardized) was then evaluated by the calculation of new relevant displacement vectors for each landmark, as well as a shape–global difference vectors. (Am J Orthod Dentofacial Orthop 1998;114:404-13)</div></front></TEI><affiliations><list><country><li>Italie</li></country></list><tree><country name="Italie"><noRegion><name sortKey="Ferrario, Virgilio F" sort="Ferrario, Virgilio F" uniqKey="Ferrario V" first="Virgilio F." last="Ferrario">Virgilio F. Ferrario</name></noRegion><name sortKey="Miani Jr, Alessandro" sort="Miani Jr, Alessandro" uniqKey="Miani Jr A" first="Alessandro" last="Miani Jr.">Alessandro Miani Jr.</name><name sortKey="Schmitz, Johannes H" sort="Schmitz, Johannes H" uniqKey="Schmitz J" first="Johannes H." last="Schmitz">Johannes H. Schmitz</name><name sortKey="Serrao, Graziano" sort="Serrao, Graziano" uniqKey="Serrao G" first="Graziano" last="Serrao">Graziano Serrao</name><name sortKey="Sforza, Chiarella" sort="Sforza, Chiarella" uniqKey="Sforza C" first="Chiarella" last="Sforza">Chiarella Sforza</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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