Abstract
Objective The aim of this study was to evaluate the morphological characteristics of the palatal rugae in Korean subjects to determine whether the palatal rugae can be used as an appropriate reference area for three-dimensional digital model superimpositions. Materials and Methods In total, 343 patients (110 men, 233 women; mean age, 25.6±8.2 years) who had a digital model taken at their initial visit were included, and the numbers and types of right and left palatal rugae were investigated according to the primary, secondary, and fragmentary rugae. Finally, the differences in the positions of the third primary ruga were investigated according to the presence of additional rugae posterior to the third primary ruga. Results The number of primary palatal rugae ranged from one to six, with 43.5% of the subjects having three primary rugae and 36.1% having four primary rugae; there were no significant differences between sexes. Except for the fragment rugae, the numbers of primary and secondary rugae were not significantly different between the left and right sides. The third primary ruga was located more significantly anteriorly when there was an additional ruga posterior to the third primary ruga (P < 0.001). Conclusions The numbers of the palatal rugae vary greatly among individuals, and this affects the anteroposterior position of the third primary ruga. When the third primary ruga is located anteriorly, care should be taken when using it as a reference area for superimposition with a digital model before and after orthodontic treatment.
Highlights
In current dental practice, digital models are rapidly replacing conventional dental casts to improve storage and data accessibility
To analyze the anatomical features of the palatal rugae, 343 patients (110 men, 233 women; mean age, 25.6±8.2 years) who visited the Department of Orthodontics, Yonsei University College of Dentistry, between January 2009 and May 2016 were selected according to the following inclusion criteria: a digital model taken at the initial visit was available, patient age was at least 17 years, patient had permanent dentition, with no maxillofacial deformities, no congenital defects of the teeth from the maxillary incisors to the second molars, no impacted teeth, no history of orthodontic treatment and/or orthognathic surgery, and mild crowding less than 4 mm
Cha et al [23] suggested that in extraction cases, only the palatal vault should be used as a reference area and that a bestfit matching method needs to be applied in 3D model superimpositions
Summary
Digital models are rapidly replacing conventional dental casts to improve storage and data accessibility. A method that uses 3D models to analyze the pre- and posttreatment movements of teeth after orthodontic or orthognathic surgery has been introduced to quantitatively measure tooth movements during treatment [8,9,10]. By superimposing the pre- and posttreatment digital models, BioMed Research International Anterior limit. (b) the vertical, horizontal, and anteroposterior movements of individual teeth, as well as their rotation, can be determined. This method can be used to analyze changes in arch width after treatment [11, 12]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
