Assessment of Size , Shape , and Position of Palatal Rugae : A Preliminary Study

The aims of this study were to review the literature on palatal rugae and their classification, and assess the pattern, shape, and average size in the medial-lateral direction of the first three anterior rugae of each side. In addition, we studied the factors influencing its size, with subsequent comparison of the results between gender, using digital models. This was a quantitative and qualitative study where 33 digitalized models of growing children (19 boys and 14 girls) from a previous research were evaluated. The palatal rugae were classified according to their shape and measurements were performed from the most medial point to the most lateral point of each of the first three anterior rugae on both sides using the OrthoAnalyser software (3 Shape). The most common palatal ruga shape was sinuous, followed by angle, curve, and straight, which together added up to over 90% (182 of 197) of the rugae shapes. As for the position, the most frequent in the first ruga (R1) was angle; whereas the sinuous shape predominated in the second (R2) and third (R3) rugae. The factors that influenced the sizes of the rugae include shape, number, and gender of the patients. The side of the rugae did not exert significant influence on its size. Palatal rugae did not exhibit a size pattern according to their shape and number. It is necessary to assess each patient individually in order to identify the variation regarding the shape and size of a particular palatal ruga. Received: Mar 21, 2018 Accepted: May 18, 2018 Published: May 27, 2018 Copyright: © 2018 Menezes LM et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Corresponding author: Luciane Macedo de Menezes, Pontifical Catholic University of Rio Grande do Sul, Brazil. E-mail: luciane@portoweb.com.br Citation: Barbo, BN, Azeredo F, Menezes LM. Assessment of Size, Shape, and Position of Palatal Rugae: A Preliminary Study. Oral Health and Dental Studies. 2018; 1(1):3. Open Access


Introduction
The use of palatal rugae in dentistry is an alternative method for human identification, especially in cases of traffic accidents, acts of terrorism, and mass disasters, when it is difficult 1,2 to identify individuals through fingerprints or dental arches.In orthodontics, rugae can be an auxiliary tool in diagnosis according to the literature.In some cases, it is possible to assess 3,4 orthodontic movements using the palatal rugae as stable references.5 Palatal rugae are elevations or asymmetric ridges, located in the anterior portion of the palatal mucosa, bilaterally to the median palatal raphe, never crossing the midline, and 6 posterior to the incisive papilla, also called palatal transverse folds.In the human embryo, the 7 palatal rugae occupy most of the length of the palatal shelves at the time of their elevation.They are formed in the third month of intrauterine life and, after this period, their 7-10 characteristics do not change, except in size due to their normal growth.
At the end of intrauterine life, the pattern of the rugae becomes more regular, with the anterior rugae 6 considerably more pronounced and compressed.At birth, the palatal rugae are complete, with the typical shape, length, width, prominence, position, and orientation creating a unique 1,11 pattern for each person.
Rugae feature a wide range of individual characteristics and remain stable over long periods 6,12 of life.The functions of the palatal rugae include facilitating food transportation, preventing

Oral Health and Dental Studies
Menezes LM et al.Oral Health and Dental Studies.2018,1(1):3 loss of food through the mouth, participating in the chewing process, contributing to the perception of taste, perceiving food texture, and aiding in the position of the tongue.Further, rugae play a role in phonation, since they disperse sound waves in different directions, thus giving peculiar sounding and timbre to the voice.They protect the palatal mucosa from trauma 13,14 caused by hard or fibrous food and retain the saliva.
Rugae are protected from traumas due to their position within the oral cavity.They have heat insulation by the tongue and intraoral 3,7 soft tissue.However, some events may contribute to change their pattern, such as fingersucking habit when occurring for a long period in childhood and during orthodontic 12,15,16 treatments.
Occasionally, there may be a change in the position of the rugae after dental approaches.Some of the Classification systems are presented in Figure 1.
Since the last century, the palatal rugae have been used as references to compare dental movements occurring before and after orthodontic treatments; however, this procedure is controversial.Some authors consider that the use of the palatal rugae for determining the direction and/or magnitude of the dental movement is limited.This limitation seems to be associated with the tooth position in relation to the rugae position: the closer the rugae points are located to the displaced teeth, the more the relative position of the rugae point will be 19 3,20,21 affected.On the other hand, some authors report that the rugae feature a long-term stability suitable for assessment in orthodontics.Conventional stone models do not allow the superposition of pre-and posttreatment models and so, do not provide a precise assessment of the modifications that occur individually in the rugae (in their position with respect to transverse, antero posterior, and -Composed: result from two or more simple rugae unions (classified with the letter X).Rugogram: Starts from right to left, beginning from the main rugae (the closest to the median raphe), represented by a capital letter.The following rugae are represented by small letters.The left side of the palate is described using the same criterion.
Regarding the shape: according to the chart.Regarding the position: -One initial ruga: the most anterior ruga on the right side, represented by a capital letter; -Several Complementary: the other rugae on the right side, represented by numbers; -One Subinicial ruga: the most anterior ruga on the left side, represented by a capital letter; -Several subcomplementary rugae: the other rugae on the left side, represented by numbers.
Divided the rugae into two groups: -Simple rugae: classified from A to F; -Composed rugae: represented by the letter X, union from two or more simple rugae.Rugogram:-Starts from the right to the left beginning in the main ruga (the most anterior), represented by a capital letter, and the following rugae are represented by small letters.
-The left side of the palate is described using the same criterion.
-Unification: Less than 1mm from the origin to the diverge laterally.
primary: two primary rugae are joint at their origin, and then diverge laterally.
non-primary: Unification occurring between a primary ruga and another ruga that is between 1mm and 5mm in length.-Branche: A ruga which is 1mm or more in length and leaves the parent ruga 1mm or more from its origin in a lateral direction.vertical directions), and linear measurements are not sufficient for comparing different models using the palatal rugae.Currently, this can be done with the digital models and for this reason [23,24] they are considered as effective tools in evaluating the different palatal ruga patterns.

25,26
Digital models began finding application toward the end of 1980s.At that time, plaster models, or dental impression were used for scanning the material that would provide the images and the software so that the orthodontist could view and manipulate the digital models.Nowadays, it is also possible to perform the intraoral scanning, without the necessity of [27][28][29] performing the whole process described above.
Digital models require less rigorous archiving and massive physics storage space.Moreover, plaster models are not practical in the long term because of breakage and 30,31 degradation issues associated with them.
There have been a lot of studies comparing digital models and plaster models in relation to diagnostic accuracy and it was reported that information obtained from digital models is interchangeable with direct caliper measurements made on conventional plaster models, showing near-excellent agreement between 22,32-39 conventional and digital models.
The purpose of this study was to review the literature on palatal rugae and its classification systems, and to assess, using digital models, the pattern, shape, and average size of the first three anterior rugae of each side, comparing the results between gender.

Study Design and Sample Selection
The sample was selected using a non-probabilistic convenience strategy from a previous research.After the approval of this research by the Ethics Committee of the Pontifical Catholic University of Rio Grande do Sul (PUCRS)( CAAE: 15960713.1.0000.5336),plastermodels of 33 growing patients (19 boys and 14 girls) were randomly selected from an expansion research sample of the Orthodontic Clinic of the PUCRS School of Dentistry.The average age of the individuals in the sample ranged from 10 to 14 years.
The inclusion criterion was pre-existent plaster models from PUCRS database with good visualization of the region of the palatal rugae and no history of previous orthodontic treatment.

Plaster Models Scanning
The plaster models were scanned using the XCAD Scanner (São Paulo, State of São Paulo, Brazil) and Ortho Analyser software (Version 2012-1, 3 Shape, Copenhagen, Denmark) to analyze the images.

Assessment of the Digital Models
The study comprised qualitative and quantitative evaluations.All the assessments were carried out by manipulating the digital models spatially, thus allowing better visualization of the area using the three-dimensional rotation tool.The operator could browse and view the models from any direction and any angle and magnify the images when necessary.
The qualitative or categorical data analyzed included the classification of the shape of the 9 rugae, performed adapting the method proposed by Basauri, described by Caldas et al. , assessing the first three rugae on each side.The quantitative data was composed of linear measurements from the most medial point to the most lateral point of each of the first three anterior rugae on each side (Figure 2).The rugogram was carried out from the right to the left, separating the sides by the median palatal raphae and starting from the main ruga (the most anterior -the closest to the incisive papilla) named as "right first ruga" (R1R), and the two following rugae named as"right second" and "right third ruga" (R2R and R3R, respectively).Finally, the left side of the palate was assessed using the same criterion ("left first ruga" L1R, and "left second ruga" and "third ruga"-L2R and L3R, respectively).Each ruga was classified according to its shape, as illustrated in Figure 3.

Statistical Analysis
The values obtained from the categorical variables were expressed as percentages.A linear mixed model (hierarchical model) was used to assess the impact of various factors on the size of the rugae, taking into consideration the shape of the ruga observed individually and the measurements performed.Additionally, two models were developed, including effects of interaction between ruga-number and ruga-shape and between ruga-number and patients' gender.All the statistical analyses were calculated using IBM SPSS statistics (version 21.0 -Chicago, USA).
The distribution of the rugae shape with respect to the morphology was different in rugae one, two, and three (R1, R2 and R3).The most common shape of the first rugae was angle (39%) and the most frequent shape of the second and third rugae was sinuous (58% and 62%, respectively).Table 1.
Table 1.Distribution of rugae with respect to the shape

Factors Influencing the Size of the Rugae
The factors that influenced the size of the palatal rugae, in order of magnitude were: shape of the ruga (P <0.001), number of the ruga (P <0.001), and patient's gender (P =0.009).The side of the ruga did not influence significantly its size (P =0.48); therefore, both sides were assessed as one group (Figure 4).Three interactions were tested in the model.The shape of the rugae (the variable that revealed the greatest influence on the size) showed interaction with the number of the rugae (P <0.001); however, no inter action was observed with the patient's gender (P =0.089; Figure 5).Additionally, it was observed that the patient's gender was correlated with the position of the ruga (P =0.012), and the rugae were larger in male compared to female patients.rugae and/or the palatal vault region to assess treatments or individuals' growth.

Comparison to Other Studies with respect to the Shape of the Rugae
The most common palatal ruga shape found in this study was sinuous, followed by angle, curve, and straight, which constituted over 90% of the rugae shape, as observed in previous 14,40,41 studies.
However, the second most prevalent shape found in previous studies was curve, 42 followed by straight.Jibi et al. assessed children (7-9 years) of two communities from Davanger City, India, and obtained the same result, but without using the angle shape in the 43 classification.In a study conducted by Kallianpur et al, who, among other aspects, observed the shape of the rugae in Indian and Nepalese descendants, found greater prevalence of the sinuous shape in the two groups, followed by curve in the Indian and straight in the Nepalese.
Byatnal et al. demonstrated the predominant rugae patterns and variation among different linguistic populations of five different states of India.They found that the sinuous pattern of palatal rugae was the most predominant pattern in all the study groups, which was followed by 45 straight and curved pattern in most of the groups.Indira, Grupta, and David determined the pattern of rugae in human identification through the similarity in the pattern of rugae in an Indian population, from members of the same families, and between dizygotic twins.They observed greater prevalence of the curved rugae, followed by sinuous and straight.Oral, Buy Each of the first three anterior rugae on both sides was assessed separately.Since there was no statistical difference between the sides (L and R), they were grouped together for evaluation purposes.Thus, in the first ruga, the most common shape was angle, followed by curve, sinuous, and straight.In the second ruga, the most prevalent shape was sinuous, followed by straight, angle, and curve, and there was a predominance of the sinuous shape in the third ruga, followed by curve, straight, and angle (Table 1).According to Santos and

Rugae Size Comparison and the Influencing Factors
Regarding the size of the rugae assessed by digital models, some variations were observed in the present study.The length of the rugae was determined, and it was observed that sinuous, composition, and angle of the shapes of rugae were bigger, while the point shape 40 was the smaller (Figure 4).Similar results were obtained by Venegas et al. .They used calcorrugos copy in plaster models with Trobo's classification in a sample of 120 adult patients from the University of Talca and evaluated the shape and the biometric characteristic of palatal rugae assessing their prevalence.The comparison of the sizes of the rugae (first, second, and third) showed a significant difference between the values.The first ruga was bigger than the others, and the second and third rugae were of similar sizes.
When the size of the rugae was assessed considering the patient's gender (Figure 4), it was observed that these structures were bigger in males (P =0.009); however, their magnitude was different when compared among the first three anterior rugae.This finding is contrary to 6,15,40 what has been reported in other studies reporting no statistical difference.
Upon comparing the sides (right vs. left) and the size of the rugae (Figure 4), it no statistical 15 difference was observed, as described in the study conducted by Kapali et al.
The variables that showed variation with respect to the size were the shape and number of the rugae.Therefore, in the present study an interaction between these two variables and the dependence on the size was performed (Figure 5).The shape of each ruga was separated according to the ruga number (R1, R2, and R3).In the general context, the first ruga was the biggest.When the shapes of the rugae were assessed separately, they showed variations in the size, depending on whether they were in R1, R2,or R3.It was concluded that each shape of ruga was greater in a particular ruga (R1, R2, and R3).
Greater size variation was found in the curve, straight, and point shape.The curve rugae had an average diameter of 10 mm in R1, and averages of 4.4 and 5.3 mm, respectively, in R2 and R3.On the other hand, the straight ruga exhibited similar size in the first two rugae (8.1 and 7.2 mm) and was smaller in the third ruga, with an average size of 4.8 mm.The point shape rugae exhibited significant variation in size in the first two rugae, despite the similar average of 3.2 and 3.4 mm, respectively.Further studies are required to determine the size of the rugae with respect to their shape.
Palatal rugae were considered as stable references in orthodontics.However, to be used as such, it is necessary to acquire greater knowledge of their shape, size and length, assessing 2,3,11,16,20,21,24 them to verify whether they remain stable during the treatment.
There was a limitation when the sizes of the rugae were compared using data from the literature, as most of the studies have assessed the dimensions of the rugae using the classification proposed by 48 Thomas and Kotze.This classification separates the rugae into primary ruga (≥5 mm), secondary ruga (3-5 mm), and fragmented ruga (2-3 mm), without specifying the average of the total size of the rugae.
Several factors such as shape, position, gender, and classification are considered when palatal rugae are studied.They exhibit variations in shape and their measures may be smaller than 2 mm or greater than 10 mm, and they may be influenced by gender, number of the ruga, and the classification used.The difficulty in comparing the studies is a result of the numerous existing classifications and the lack of standardization.

Conclusion
The findings of this preliminary study indicate that the three palatal rugae assessed did not exhibit a size pattern with respect to shape and number.It is necessary to assess each patient individually, in order to identify the variation with respect to the form and size of a particular palatal ruga.Future studies, with larger sample size, should be carried out to allow more conclusive results.

Figure 1 .
Figure 1.Summary of the classifications of palatal rugae Many studies have evaluated the results of orthodontic treatments using plaster 4,16,19,22 models.Conventional stone models do not allow the superposition of pre-and posttreatment models and so, do not provide a precise assessment of the modifications that occur individually in the rugae (in their position with respect to transverse, antero posterior, and the rugae into two groups: -Simple: classified from A to F.

Figure 2 .
Figure 2. (A) Sequence and position of the first three rugae of the right and left sides.(R1R and L1R) first rugae; (R2R and L2R) second rugae; (R3R and L3R) third rugae (B) Measurement in the medial-lateral direction of the rugae of the left sideLinear measurements were carried out from the most medial point to the most lateral point of each of the first three anterior rugae on both sides (Figure2B) using the tool "distance with digital calliper" of the OrthoAnalyser software (version 2012-1, 3Shape).Results obtained from female and male patients were compared to check for the possible differences.All the assessments and measurements were performed by the same examiner (B.B) and repeated three times at a 15-day interval.

Figure 3 .
Figure 3. Rugae classification according to the shape

Figure 4 .
Figure 4. Influencing factors with respect to the size of the rugae

Figure 5 .
Figure 5. Interaction between the form and the position of the rugae Discussion Palatal rugae are unique and different in each person and, for this reason, they are used for 1,2human identification.The present study sought to assess the palatal rugae separately (R1, R2, and R3), observing the relationship between shape, size, and patients' gender.The first three rugae of each side were assessed, since the studies addressing the use of rugae in orthodontics used the medial points and/or the most lateral points of the first anterior three3,20

46 uk
and Simsek evaluated the palatal rugae pattern in 105 individuals aged 10 to 22 years.The subjects were grouped as Class I (35, 23 females, 12 males), Class II (35, 18 females, 17 males), and Class III (35, 14 females and 21 males) according to the ANB angle measured on lateral cephalometric radiographs in order to perform the skeletal classification of the study participants (Class I: ANB angle 0° to 4°; Class II: ANB angle > 4°; Class III: ANB angle < 0°).They observed that wavy and curved types were the most common types of rugae pattern in all the groups.

47 Caldas,
who studied the rugae of 50 patients at the School of Dental Medicine of the University of Porto, the most prevalent shapes were straight in the first ruga and sinuous in the Oral Health and Dental Studies Menezes LM et al.Oral Health and Dental Studies.2018,1(1):3 third ruga.The second ruga, however, was not assessed.