| The Japanese Dental Science Review | |
| Vol. 45 No. 2 2009 | |
| ISSN: 1882-7616 UBIC: 99 | |
| SUMMARY | |
| Although many dentists agree that occlusion is one of the most important factors for dental clinics, evidence for this conclusion among
contemporary clinical dental procedures is very limited. The lack of appropriate measurement and recording methods for dental occlusion may be responsible for this
inconsistency. If transitional occlusal contact points on dentition during functional Jaw movement can be observed graphically, it will dramatically improve the
realization and evaluation of dental occlusion for both research and clinics. This technology is now available by computing the distance between the maxillary and
mandibular occlusal surfaces during jaw movement. This visualization of occlusion requires a three-dimensional configuration record of the maxillary and mandibular
dentitions and six-degree-of-freedom jaw movement data with a 10-µm accuracy level. We recently developed a new jaw-tracking device consisting of a pair of three
axis coils to satisfy these quality requirements. Improvement of three-dimensional digitizers with a laser beam system will be necessary for precise acquisition of
the occlusal configuration. For analyses of occlusion and six-degree-of-freedom jaw movement, we propose two different mathematical ideas to represent jaw movement.
The first is mandibular movement, i.e. mandibular motion against the maxilla, and the second is complementary mandibular movement, i.e. maxillary motion against the
mandible. Eighteen-degree-of-freedom movement involving maxillary and mandibular teeth movements will be required for research in the near future.
KEYWORDS: Occlusion; Jaw movement; Mandibular movement; Complementary mandibular movement; Tooth movement; Visualization. |
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