Non‐invasive longitudinal assessment of facial growth in children and adolescents with hypohidrotic ectodermal dysplasia
Identifieur interne : 006303 ( Main/Exploration ); précédent : 006302; suivant : 006304Non‐invasive longitudinal assessment of facial growth in children and adolescents with hypohidrotic ectodermal dysplasia
Auteurs : Claudia Dellavia [Italie] ; Francesca Catti [Italie] ; Chiarella Sforza [Italie] ; Gaia Grandi [Italie] ; Virgilio F. Ferrario [Italie]Source :
- European Journal of Oral Sciences [ 0909-8836 ] ; 2008-08.
Descripteurs français
- Wicri :
- topic : Collecte de données.
English descriptors
- KwdEn :
- Adult patients, Alar crest, Angle orthod, Clinical management, Clinical report, Computerized digitizer, Control subjects, Craniofacial, Craniofacial development, Current investigation, Data collection, Dellavia, Dental implants, Dysplasia, Ectodermal, Ectodermal dysplasia, Ectodermal dysplasias, Error percentage, Facial, Facial growth, Facial growth patterns, Facial landmarks, Facial morphometry, Facial structures, Facial volume, Facial volumes, Female subjects, Ferrario, Forehead volume, Frontal bossing, Gender, Greater growth, Growth period, Human morphology, Hypodontia, Hypohidrotic, Hypohidrotic ectodermal dysplasia, Implant, Journal compilation, Labiale superius, Landmark, Large increase, Longitudinal, Longitudinal analysis, Lower lips, Male subjects, Mandibular, Mandibular growth, Mandibular teeth, Mandibular volume, Mandibular volumes, Maxillary, Maxillary growth, Nasal volume, Normal reference peers, Null reference, Orthod craniofac, Orthodontic treatments, Orthopaedic appliances, Orthopaedic devices, Permanent teeth, Phys anthropol, Polar diagram, Present study, Previous investigations, Prosthesis, Prosthet dent, Prosthetic, Prosthetic devices, Reference data, Reference peers, Reference subjects, Removable, Removable prostheses, Removable prosthetic, Saddle nose, Second data collection, Second tetrahedron, Severe hypodontia, Sforza, Skeletal growth, Soft tissue, Solid line, Standard deviation, Subsequent years, Tetrahedron, Third data collection, Third volume, Time intervals, Time span.
- Teeft :
- Adult patients, Alar crest, Angle orthod, Clinical management, Clinical report, Computerized digitizer, Control subjects, Craniofacial, Craniofacial development, Current investigation, Data collection, Dellavia, Dental implants, Dysplasia, Ectodermal, Ectodermal dysplasia, Ectodermal dysplasias, Error percentage, Facial, Facial growth, Facial growth patterns, Facial landmarks, Facial morphometry, Facial structures, Facial volume, Facial volumes, Female subjects, Ferrario, Forehead volume, Frontal bossing, Gender, Greater growth, Growth period, Human morphology, Hypodontia, Hypohidrotic, Hypohidrotic ectodermal dysplasia, Implant, Journal compilation, Labiale superius, Landmark, Large increase, Longitudinal, Longitudinal analysis, Lower lips, Male subjects, Mandibular, Mandibular growth, Mandibular teeth, Mandibular volume, Mandibular volumes, Maxillary, Maxillary growth, Nasal volume, Normal reference peers, Null reference, Orthod craniofac, Orthodontic treatments, Orthopaedic appliances, Orthopaedic devices, Permanent teeth, Phys anthropol, Polar diagram, Present study, Previous investigations, Prosthesis, Prosthet dent, Prosthetic, Prosthetic devices, Reference data, Reference peers, Reference subjects, Removable, Removable prostheses, Removable prosthetic, Saddle nose, Second data collection, Second tetrahedron, Severe hypodontia, Sforza, Skeletal growth, Soft tissue, Solid line, Standard deviation, Subsequent years, Tetrahedron, Third data collection, Third volume, Time intervals, Time span.
Abstract
Facial growth patterns in 12 subjects (six boys and six girls) with hypohidrotic ectodermal dysplasia (HED) were analyzed and compared with facial growth patterns obtained in healthy reference peers. All subjects with HED were aged 7 yr (mean age ± standard deviation: 7.08 ± 0.41 yr) at the first examination and 14 yr (mean age ± standard deviation: 14.56 ± 0.34 yr) at the last examination. In each subject, the three‐dimensional coordinates of facial landmarks were collected non‐invasively at eight subsequent years. The volumes of forehead, nose, maxilla and mandible, upper lips, and lower lips were estimated. For each facial volume, differential values between different time points were calculated individually, separately for the ‘childhood’ (7–10 yr) and the ‘adolescence’ (11–14 yr) growth period in both HED and reference subjects. Children and adolescents with HED had a slightly reduced global facial growth in comparison with normal reference peers. The peak mandibular and maxillary development was delayed by approximately 2 yr towards later adolescence. The present non‐invasive system seems to be useful for studying longitudinal changes of facial growth in healthy and syndromic subjects.
Url:
DOI: 10.1111/j.1600-0722.2008.00550.x
Affiliations:
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<term>Angle orthod</term>
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<term>Clinical report</term>
<term>Computerized digitizer</term>
<term>Control subjects</term>
<term>Craniofacial</term>
<term>Craniofacial development</term>
<term>Current investigation</term>
<term>Data collection</term>
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<term>Dental implants</term>
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<term>Facial growth</term>
<term>Facial growth patterns</term>
<term>Facial landmarks</term>
<term>Facial morphometry</term>
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<term>Facial volume</term>
<term>Facial volumes</term>
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<term>Hypohidrotic</term>
<term>Hypohidrotic ectodermal dysplasia</term>
<term>Implant</term>
<term>Journal compilation</term>
<term>Labiale superius</term>
<term>Landmark</term>
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<term>Longitudinal</term>
<term>Longitudinal analysis</term>
<term>Lower lips</term>
<term>Male subjects</term>
<term>Mandibular</term>
<term>Mandibular growth</term>
<term>Mandibular teeth</term>
<term>Mandibular volume</term>
<term>Mandibular volumes</term>
<term>Maxillary</term>
<term>Maxillary growth</term>
<term>Nasal volume</term>
<term>Normal reference peers</term>
<term>Null reference</term>
<term>Orthod craniofac</term>
<term>Orthodontic treatments</term>
<term>Orthopaedic appliances</term>
<term>Orthopaedic devices</term>
<term>Permanent teeth</term>
<term>Phys anthropol</term>
<term>Polar diagram</term>
<term>Present study</term>
<term>Previous investigations</term>
<term>Prosthesis</term>
<term>Prosthet dent</term>
<term>Prosthetic</term>
<term>Prosthetic devices</term>
<term>Reference data</term>
<term>Reference peers</term>
<term>Reference subjects</term>
<term>Removable</term>
<term>Removable prostheses</term>
<term>Removable prosthetic</term>
<term>Saddle nose</term>
<term>Second data collection</term>
<term>Second tetrahedron</term>
<term>Severe hypodontia</term>
<term>Sforza</term>
<term>Skeletal growth</term>
<term>Soft tissue</term>
<term>Solid line</term>
<term>Standard deviation</term>
<term>Subsequent years</term>
<term>Tetrahedron</term>
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<term>Alar crest</term>
<term>Angle orthod</term>
<term>Clinical management</term>
<term>Clinical report</term>
<term>Computerized digitizer</term>
<term>Control subjects</term>
<term>Craniofacial</term>
<term>Craniofacial development</term>
<term>Current investigation</term>
<term>Data collection</term>
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<term>Dental implants</term>
<term>Dysplasia</term>
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<term>Ectodermal dysplasia</term>
<term>Ectodermal dysplasias</term>
<term>Error percentage</term>
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<term>Facial growth</term>
<term>Facial growth patterns</term>
<term>Facial landmarks</term>
<term>Facial morphometry</term>
<term>Facial structures</term>
<term>Facial volume</term>
<term>Facial volumes</term>
<term>Female subjects</term>
<term>Ferrario</term>
<term>Forehead volume</term>
<term>Frontal bossing</term>
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<term>Greater growth</term>
<term>Growth period</term>
<term>Human morphology</term>
<term>Hypodontia</term>
<term>Hypohidrotic</term>
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<term>Implant</term>
<term>Journal compilation</term>
<term>Labiale superius</term>
<term>Landmark</term>
<term>Large increase</term>
<term>Longitudinal</term>
<term>Longitudinal analysis</term>
<term>Lower lips</term>
<term>Male subjects</term>
<term>Mandibular</term>
<term>Mandibular growth</term>
<term>Mandibular teeth</term>
<term>Mandibular volume</term>
<term>Mandibular volumes</term>
<term>Maxillary</term>
<term>Maxillary growth</term>
<term>Nasal volume</term>
<term>Normal reference peers</term>
<term>Null reference</term>
<term>Orthod craniofac</term>
<term>Orthodontic treatments</term>
<term>Orthopaedic appliances</term>
<term>Orthopaedic devices</term>
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<term>Phys anthropol</term>
<term>Polar diagram</term>
<term>Present study</term>
<term>Previous investigations</term>
<term>Prosthesis</term>
<term>Prosthet dent</term>
<term>Prosthetic</term>
<term>Prosthetic devices</term>
<term>Reference data</term>
<term>Reference peers</term>
<term>Reference subjects</term>
<term>Removable</term>
<term>Removable prostheses</term>
<term>Removable prosthetic</term>
<term>Saddle nose</term>
<term>Second data collection</term>
<term>Second tetrahedron</term>
<term>Severe hypodontia</term>
<term>Sforza</term>
<term>Skeletal growth</term>
<term>Soft tissue</term>
<term>Solid line</term>
<term>Standard deviation</term>
<term>Subsequent years</term>
<term>Tetrahedron</term>
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<front><div type="abstract" xml:lang="en">Facial growth patterns in 12 subjects (six boys and six girls) with hypohidrotic ectodermal dysplasia (HED) were analyzed and compared with facial growth patterns obtained in healthy reference peers. All subjects with HED were aged 7 yr (mean age ± standard deviation: 7.08 ± 0.41 yr) at the first examination and 14 yr (mean age ± standard deviation: 14.56 ± 0.34 yr) at the last examination. In each subject, the three‐dimensional coordinates of facial landmarks were collected non‐invasively at eight subsequent years. The volumes of forehead, nose, maxilla and mandible, upper lips, and lower lips were estimated. For each facial volume, differential values between different time points were calculated individually, separately for the ‘childhood’ (7–10 yr) and the ‘adolescence’ (11–14 yr) growth period in both HED and reference subjects. Children and adolescents with HED had a slightly reduced global facial growth in comparison with normal reference peers. The peak mandibular and maxillary development was delayed by approximately 2 yr towards later adolescence. The present non‐invasive system seems to be useful for studying longitudinal changes of facial growth in healthy and syndromic subjects.</div>
</front>
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<affiliations><list><country><li>Italie</li>
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<tree><country name="Italie"><noRegion><name sortKey="Dellavia, Claudia" sort="Dellavia, Claudia" uniqKey="Dellavia C" first="Claudia" last="Dellavia">Claudia Dellavia</name>
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<name sortKey="Catti, Francesca" sort="Catti, Francesca" uniqKey="Catti F" first="Francesca" last="Catti">Francesca Catti</name>
<name sortKey="Ferrario, Virgilio F" sort="Ferrario, Virgilio F" uniqKey="Ferrario V" first="Virgilio F." last="Ferrario">Virgilio F. Ferrario</name>
<name sortKey="Grandi, Gaia" sort="Grandi, Gaia" uniqKey="Grandi G" first="Gaia" last="Grandi">Gaia Grandi</name>
<name sortKey="Sforza, Chiarella" sort="Sforza, Chiarella" uniqKey="Sforza C" first="Chiarella" last="Sforza">Chiarella Sforza</name>
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