Korean J Orthod.
2000 Apr;30(2):175-183.
The compensatory adaptation of anterior teeth according to the skeletal rolation
- Affiliations
-
- 1Department of Orthodontics, College of Dentistry, Chosun University, Korea.
Abstract
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The purpose of this study was to identify the compensatory adaptation of
dentoalveolar structure according to the various skeletal relation though the statistical
correlation between the anteroposterior, vertical skeletal and dentoalveolar relation, For
this study, the sample were consisted of 101 adult subjects (51male and 50 female, mean
age; male 23.6 years, female 21.5 years) who had good occlusion with the range of
normal overjet and overbite and acceptable Angle's class I molar relationship which
had not been related orthodontically.
The results were as follows :
1. Even though acceptable normal occlusion, the range of measurements which represent
anteroposterior, vertical skeletal relation and dentoalveolar relation were very wide.
2. Upper and lower incisor axis were significantly correlated with anteroposterior skeletal
relation, which means the more lingual inclination of upper anterior teeth and the more
labial inclination of lower anterior teeth according to the more anterior position of
mandible to the maxilla (p<0.01).
3. Upper and lower anterior alveolar bone height was statistically correlated with the
lower anterior vertical skeletal height.
4. Upper and lower alveolar bone hight were not correlated with anteroposterior skeletal
relation (p>0.05).
5. The correlation between the incisor axis and vertical skeletal was more closely
related in upper anterior teeth than the lower anterior teeth.
To summarize the above results, even though acceptable normal occlusion, skeletal
and dentoalveolar relation was very widely ranged, and there were close relationship
between the anteroposterior skeletal relation and the inclination of upper and lower
anterior teeth and between the vertical skeletal relation and upper and lower anterior
alveolar bone height. These finding can be concluded as compensatory adaptation to the
different skeletal relationship