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Authors are the souls of any journal, and deserve much respect. To publish a journal manuscripts are needed from authors. Authors have a great responsibility for producing facts of their work in terms of number and results truthfully and an individual honesty is expected from authors in this regards. Both ways its true "No authors-No manuscripts-No journals" and "No journals–No manuscripts–No authors". Reviewing a manuscript is also a very responsible and important task of any peer-reviewed journal and to be taken seriously. It needs knowledge on the subject, sincerity, honesty and determination. Although the process of reviewing a manuscript is a time consuming task butit is expected to give one's best remarks within the time frame of the journal.
Salient features of the JCDR: It is a biomedical, multidisciplinary (including all medical and dental specialities), e-journal, with wide scope and extensive author support. At the same time, a free text of manuscript is available in HTML and PDF format. There is fast growing authorship and readership with JCDR as this can be judged by the number of articles published in it i e; in Feb 2007 of its first issue, it contained 5 articles only, and now in its recent volume published in April 2011, it contained 67 manuscripts. This e-journal is fulfilling the commitments and objectives sincerely, (as stated by Editor-in-chief in his preface to first edition) i e; to encourage physicians through the internet, especially from the developing countries who witness a spectrum of disease and acquire a wealth of knowledge to publish their experiences to benefit the medical community in patients care. I also feel that many of us have work of substance, newer ideas, adequate clinical materials but poor in medical writing and hesitation to submit the work and need help. JCDR provides authors help in this regards.
Timely publication of journal: Publication of manuscripts and bringing out the issue in time is one of the positive aspects of JCDR and is possible with strong support team in terms of peer reviewers, proof reading, language check, computer operators, etc. This is one of the great reasons for authors to submit their work with JCDR. Another best part of JCDR is "Online first Publications" facilities available for the authors. This facility not only provides the prompt publications of the manuscripts but at the same time also early availability of the manuscripts for the readers.
Indexation and online availability: Indexation transforms the journal in some sense from its local ownership to the worldwide professional community and to the public.JCDR is indexed with Embase & EMbiology, Google Scholar, Index Copernicus, Chemical Abstracts Service, Journal seek Database, Indian Science Abstracts, to name few of them. Manuscriptspublished in JCDR are available on major search engines ie; google, yahoo, msn.
In the era of fast growing newer technologies, and in computer and internet friendly environment the manuscripts preparation, submission, review, revision, etc and all can be done and checked with a click from all corer of the world, at any time. Of course there is always a scope for improvement in every field and none is perfect. To progress, one needs to identify the areas of one's weakness and to strengthen them.
It is well said that "happy beginning is half done" and it fits perfectly with JCDR. It has grown considerably and I feel it has already grown up from its infancy to adolescence, achieving the status of standard online e-journal form Indian continent since its inception in Feb 2007. This had been made possible due to the efforts and the hard work put in it. The way the JCDR is improving with every new volume, with good quality original manuscripts, makes it a quality journal for readers. I must thank and congratulate Dr Hemant Jain, Editor-in-Chief JCDR and his team for their sincere efforts, dedication, and determination for making JCDR a fast growing journal.
Every one of us: authors, reviewers, editors, and publisher are responsible for enhancing the stature of the journal. I wish for a great success for JCDR."
Thanking you
With sincere regards
Dr. Rajendra Kumar Ghritlaharey, M.S., M. Ch., FAIS
Associate Professor,
Department of Paediatric Surgery, Gandhi Medical College & Associated
Kamla Nehru & Hamidia Hospitals Bhopal, Madhya Pradesh 462 001 (India)
E-mail: drrajendrak1@rediffmail.com
On May 11,2011
Dr. Shankar P.R.
"On looking back through my Gmail archives after being requested by the journal to write a short editorial about my experiences of publishing with the Journal of Clinical and Diagnostic Research (JCDR), I came across an e-mail from Dr. Hemant Jain, Editor, in March 2007, which introduced the new electronic journal. The main features of the journal which were outlined in the e-mail were extensive author support, cash rewards, the peer review process, and other salient features of the journal.
Over a span of over four years, we (I and my colleagues) have published around 25 articles in the journal. In this editorial, I plan to briefly discuss my experiences of publishing with JCDR and the strengths of the journal and to finally address the areas for improvement.
My experiences of publishing with JCDR: Overall, my experiences of publishing withJCDR have been positive. The best point about the journal is that it responds to queries from the author. This may seem to be simple and not too much to ask for, but unfortunately, many journals in the subcontinent and from many developing countries do not respond or they respond with a long delay to the queries from the authors 1. The reasons could be many, including lack of optimal secretarial and other support. Another problem with many journals is the slowness of the review process. Editorial processing and peer review can take anywhere between a year to two years with some journals. Also, some journals do not keep the contributors informed about the progress of the review process. Due to the long review process, the articles can lose their relevance and topicality. A major benefit with JCDR is the timeliness and promptness of its response. In Dr Jain's e-mail which was sent to me in 2007, before the introduction of the Pre-publishing system, he had stated that he had received my submission and that he would get back to me within seven days and he did!
Most of the manuscripts are published within 3 to 4 months of their submission if they are found to be suitable after the review process. JCDR is published bimonthly and the accepted articles were usually published in the next issue. Recently, due to the increased volume of the submissions, the review process has become slower and it ?? Section can take from 4 to 6 months for the articles to be reviewed. The journal has an extensive author support system and it has recently introduced a paid expedited review process. The journal also mentions the average time for processing the manuscript under different submission systems - regular submission and expedited review.
Strengths of the journal: The journal has an online first facility in which the accepted manuscripts may be published on the website before being included in a regular issue of the journal. This cuts down the time between their acceptance and the publication. The journal is indexed in many databases, though not in PubMed. The editorial board should now take steps to index the journal in PubMed. The journal has a system of notifying readers through e-mail when a new issue is released. Also, the articles are available in both the HTML and the PDF formats. I especially like the new and colorful page format of the journal. Also, the access statistics of the articles are available. The prepublication and the manuscript tracking system are also helpful for the authors.
Areas for improvement: In certain cases, I felt that the peer review process of the manuscripts was not up to international standards and that it should be strengthened. Also, the number of manuscripts in an issue is high and it may be difficult for readers to go through all of them. The journal can consider tightening of the peer review process and increasing the quality standards for the acceptance of the manuscripts. I faced occasional problems with the online manuscript submission (Pre-publishing) system, which have to be addressed.
Overall, the publishing process with JCDR has been smooth, quick and relatively hassle free and I can recommend other authors to consider the journal as an outlet for their work."
Dr. P. Ravi Shankar
KIST Medical College, P.O. Box 14142, Kathmandu, Nepal.
E-mail: ravi.dr.shankar@gmail.com
On April 2011 Anuradha
Dear team JCDR, I would like to thank you for the very professional and polite service provided by everyone at JCDR. While i have been in the field of writing and editing for sometime, this has been my first attempt in publishing a scientific paper.Thank you for hand-holding me through the process.
Dr. Anuradha
E-mail: anuradha2nittur@gmail.com
On Jan 2020
Original article / research
Full Version
Analysis of Palatal Rugae Pattern in Angle’s Classification of Malocclusion using Dental Casts in Chengalpattu District, Southern India: A Cross-sectional Study
Correspondence Address :
Dr. KT Magesh,
Vice-Principal, Professor and Head, Department of Oral Pathology and Microbiology, SRM Kattankulathur Dental College and Hospital, SRM Institute of Science and Technology, SRM Nagar, Kattankulathur-603203, Chengalpattu, Tamil Nadu, India.
E-mail: magesht@srmist.edu.in
Introduction: Palatal rugae are uneven, asymmetrical ridges of the mucous membrane that stretch laterally from the anterior one-third of the mid-palatine raphe to the incisive papilla. Rugae are generally unique and stable, suggesting applications in forensics and orthodontics. During the early stages of intrauterine life, the formation of palatal rugae is completed, while dental malocclusion in the permanent teeth develops several years after birth. The objective of the present study was to identify the length, number and orientation of palatal rugae in various malocclusion groups.
Aim: To investigate potential correlations between Angle’s classification of malocclusion and the palatal rugae pattern.
Materials and Methods: A cross-sectional observational study was conducted in the Department of Oral and Maxillofacial Pathology at SRM Kattankulathur Dental College and Hospital, Chengalpattu, Tamil Nadu, India. Data was collected from the years 2021 to 2024 and data analysis was done from October 2023 to April 2024. Study was carried out on 105 archival pretreatment dental casts, ranging in age from 18-35 years. The samples were categorised into class I, class II and class III according to Angle’s system of malocclusion. Bilaterally, the three most prominent anterior primary rugae were counted, and their pattern, length and orientation were noted. STATA 17 software was used for data analysis.
Results: The mean±Standard Deviation (SD) age of the study group was 26.5±23.64 years. According to mean±SD length of rugae significantly more (p-value <0.05) primary rugae were found in class I (1.39±1.34 mm) compared to class II (0.59±1.17 mm) and class III (0.5±0.97 mm). Both wavy and curved patterns showed statistical significance with the type of malocclusion (wavy: p-value=0.0001 and curved: p-value=0.0013) when compared to the straight pattern (p-value=0.1498). Regarding the mode of orientation, converging (0.39±0.6) and diverging (0.29±0.52) patterns were found to be statistically insignificant among the three classes of malocclusion.
Conclusion: The study demonstrated slight variations in the palatal rugae pattern between Angle’s malocclusion classes. An additional finding that differed significantly among the malocclusion groups was the length of the rugae. However, the results did not reveal a specific pattern that is unique to any one type of malocclusion.
Cast models, Dental malocclusions, Orthodontics, Palatal rugae, Rugoscopy
The word ‘rugae’ is Greek in origin and signifies ‘seam.’ It indicates the point at which two distinct pieces, which have been embryologically separated from one another, converge to form a tissue or organ. Anatomical folds behind the incisive papillae on the anterior palate are called rugae, plica palatine, or transverse ridge folds (1). During the third month (12th week to 14th week) of intrauterine life, palatal rugae emerge and cover the majority of the palatal shelves (2). These are distinct structures whose positions and patterns remain constant throughout an individual’s lifetime. A child’s ability to suckle their finger, speak and taste food is physiologically aided by palate relief (3),(4).
On each side, there are four to six palatal rugae. The complex interactions between mesenchymal and epithelial cells, which are governed by a family of homeobox genes, influence their growth and development. By the time intrauterine life comes to an end, the anterior rugae grow more prominent, and the posterior ones vanish, leading to an uneven distribution of the pattern (3). They are protected from injury, trauma and extreme temperatures by the surrounding soft and hard tissues, which include the tongue, lips, cheeks, teeth, and underlying bone (5),(6),(7),(8),(9). Research has demonstrated that the location of the dorsum of the tongue is crucial for the developmental stage of the palatal rugae. Different types of malocclusion also cause variations in the position of the tongue. Rugae are comparatively noticeable during the prenatal period. They are well-formed and have a typical orientation pattern at birth. They take on the final form of each person’s features during adolescence. Once formed, they may undergo alterations in size as a result of palate growth, but they never alter their shape (10),(11). While certain habits, such as thumb sucking or continuous pressure from braces and orthodontic therapy, as well as, orthodontic extractions, may cause localised alterations in the palatal rugae, the rugae remain stable and have been utilised for dental cast superimposition, which observes and tracks the movement of teeth in orthodontics (12),(13).
In the world, dental malocclusions rank third in terms of frequency of occurrence. The most widely recognised factor responsible for this condition is genetic predisposition. An acceptable prognosis at a high level can be achieved with minimal orthodontic and surgical intervention whenever developing malocclusion is detected early and intercepted (10).
The relationship between the maxillary and mandibular permanent first molars, as proposed by Angle, is the cornerstone of the commonly employed classification system for dental malocclusion. Despite being seen as less flexible, Angle’s classification has been recognised as an effective approach that minimises intraobserver bias (10).
Since palatal rugae remain stable and unique to each person (like fingerprints), they have been deemed relevant for human identification. They serve as reliable reference points in orthodontics when superimposing cephalometric tracings taken before (pre) and after (post) treatment (14). The study of palatal rugae is referred to as ‘palatoscopy’, sometimes known as ‘rugoscopy’ (15). Allen, in 1889, suggested the application of palatal rugae patterns to aid in personal identification. Trobo Hermosa, a Spanish investigator, coined the phrase ‘palatal rugoscopy’ (16),(17). The classification by Thomas et al., serves as the framework for palatal rugae pattern identification. Rugae are categorised according to their number, length, shape and pattern of identification (18).
Thus, the aim of the present study was to investigate potential correlations between Angle’s classification of malocclusion and the palatal rugae pattern. Objectives were to identify the most common palatal rugae characteristics in Angle’s classification of malocclusion and to determine whether this may serve as an additional criterion to aid in the evaluation of malocclusion. This study seeks to address the deficiency in the current literature, as, to the knowledge of the authors, no similar research has been conducted in the Chengalpattu district, Tamil Nadu, India.
A cross-sectional observational study was conducted in the Department of Oral and Maxillofacial Pathology at SRM Kattankulathur Dental College and Hospital, Chengalpattu, Tamil Nadu, India. Data was collected from the years 2021 to 2024 and data analysis was done from October 2023 to April 2024. Study was carried the Institutional Ethics Committee (IEC) provided ethical clearance prior to the commencement of the study (Ethics Clearance Number: SRMIEC-ST0724-1466).
Inclusion criteria: Individuals from between the ages of 18-35 years, individuals who do not wear braces and have not undergone any previous orthodontic treatment, and individuals who do not have any fixed or removable partial dentures were included in the study.
Exclusion criteria: Individuals with palatal and lip anomalies, such as cleft palate and cleft lip, as well as, those with braces and partial dentures, were excluded from the study. Individuals with a prior history of orthodontic treatment were also eliminated.
Sample size: A convenience sampling was carried out for the study, which consisted of archival pretreatment dental casts of 105 individuals (class I: 38, class II: 57 and class III: 10), irrespective of gender, spanning ages from 18-35 years (Table/Fig 1).
Study Procedure
Upon analysing the archival pretreatment dental data of various subjects, only those who met the inclusion criteria were selected. All subjects were divided into class I, class II, and class III of Angle’s malocclusion without considering the aetiology of malocclusion. The number of subjects per class varied. The evaluation of the malocclusions was conducted clinically. The 105 samples were distributed according to malocclusion groups as follows: class I: 38, class II: 57 and class III: 10. The casts and records were retrieved from the Department of Orthodontics, where the archival casts belonged to patients who were healthy and did not have any diagnosed congenital abnormalities, inflammation, or trauma. There were no air bubbles or voids in any of the chosen casts, particularly in the anterior part of the palate. The rugae patterns of the study models were drawn using a pencil in good lighting and with the aid of a hand lens for magnification (Table/Fig 2).
Using an High Definition (HD) camera, pictures of the casts were taken, printed and analysed further. To evaluate the pattern of palatal rugae, Thomas and Kotze’s classification was used (Table/Fig 3) (5).
The joining of two rugae at the point of termination or origin was described as unification (Table/Fig 2) (5),(19),(20). There were two categories for unification:
Diverging: Two rugae that shared the same origin but branched apart immediately were classified as diverging rugae.
Converging: Two rugae with distinct origins that joined at their lateral regions were regarded as converging rugae.
According to Lysell, the rugae were classified based on their lengths (Table/Fig 4) (14),(21). They were categorised as follows:
Statistical Analysis
After the analysis of the data was completed, the data was sent for statistical analysis. Statistics and Data (Stata) 17 software was used for this analysis. When a non normal distribution was observed using the Shapiro-Wilk test, which was applied to check for data normality, a non parametric test was conducted. The mean and Standard Deviations (SD) of the descriptive statistics were computed. To compare mean variations in the length and number of palatal rugae across the three classification groups, the Kruskal-Wallis test was used. The Chi-square test was employed to compare the pattern and orientation of palatal rugae between the three groups. Statistical significance was defined as a p-value of ≤0.05.
A total of 105 archival pretreatment casts were evaluated. The data collected were from individuals between the ages of 18 years and 35 years, with a mean age of 26.5±23.64 years. This study was conducted irrespective of gender.
The total number of rugae, as well as, the pattern and orientation of the rugae in class I, class II and class III malocclusions, were evaluated both individually and collectively. According to the mean±SD length of rugae, class I malocclusions had more primary rugae (1.39±1.34 mm) than class II malocclusions (0.59±1.17 mm) and class III malocclusions (0.5±0.97 mm). In contrast to the straight pattern (p-value=0.1498), the rugae pattern analysis revealed that both wavy and curved patterns exhibited preponderance in all three classes of malocclusion (wavy: p-value=0.0001 and curved: p-value=0.0013). In all three malocclusion groups, the convergent orientation type (0.39±0.6) was more prevalent than the divergent orientation type (0.29±0.52).
However, the differences in the pattern, number, length and orientation of the palatal rugae between the malocclusion groups were not statistically significant (Table/Fig 5). The results, however, did not indicate a specific pattern that is unique to any one type of malocclusion.
The present study investigated the patterns, lengths and orientation of palatal rugae, as well as, their relationship to Angle’s classification of malocclusion. Although specific tendencies emerged among the malocclusion groups, the variation in outcomes illustrates the complexity of these structures.
Palatal rugae may differ depending on the type of malocclusion. Class I rugae are well-developed and symmetric, demonstrating maxillary-mandibular linkage. A narrower maxillary arch and more space between the upper and lower teeth render class II rugae anteriorly uneven, compressed and elongated. Class III rugae are more irregular and larger due to their position, as the maxilla adapts to accommodate the forward-positioned mandible, resulting in a wider arch (10). Therefore, the correlation of the pattern of palatal rugae with Angle’s classification of malocclusion can help predict any dentoskeletal abnormalities in the future (22).
The present study classified specific rugae patterns according to various classes of malocclusion. In all three classes, statistically, wavy and curved patterns were appreciated more than the straight pattern. However, individually, class I malocclusion was identified as being characterised predominantly by wavy rugae, whereas class II malocclusion exhibited curved rugae patterns as the most prevalent. Class III malocclusion was characterised by rugae patterns that were notably straight. These results align with the findings of Dhiman I et al., who identified similar rugae characteristics in class II malocclusion, despite small variations observed in other classes (1).
Variations in length were particularly noticeable in the primary rugae. Class II malocclusion demonstrated the longest primary rugae, a result consistent with previous research by Dhiman I et al., (1). This discovery indicates that the length of the rugae may function as a potential diagnostic marker for class II malocclusion, facilitating the early detection of skeletal anomalies.
The observed variations in length and patterns among malocclusion groups were statistically significant, corroborating the findings of Fatima F et al., who also noted minor relationships with low clinical importance (15). The current study supports the idea that palatal rugae serve as distinctive identifiers, in comparison to existing literature.
Indira A et al., observed that no two individuals possess identical rugae patterns, and these structures lack bilateral symmetry, rendering them a dependable characteristic for forensic identification (23). Nonetheless, research conducted by Alzahrani SK et al., revealed no substantial link between rugae patterns and malocclusion, highlighting the variety and the impact of sample size, technique, and demographic diversity (24).
Regional discrepancies in rugae patterns have been documented, with research by Paliwal A et al., identifying wavy patterns as the most prevalent across populations in Madhya Pradesh and Kerala, India (21). This corresponds with the current study’s results for class I malocclusion and emphasises the influence of genetic and environmental factors on rugae formation. This diversity indicates the necessity for extensive, widespread investigations to validate these correlations and examine their universality.
Abazi MS et al., discovered that class I malocclusion presented gender-specific rugae configurations, with females primarily exhibiting a straight pattern and males a wavy pattern. Conversely, class II malocclusion exhibited a straight rugae pattern in both genders, while class III malocclusion demonstrated a prevalence of wavy patterns in females and curved patterns in males (3). The present study similarly noted diverse patterns among malocclusion classes, underscoring the impact of malocclusion type on rugae formation.
Jose LK et al., documented irregular rugae patterns in class I, a forking pattern in class II, and wavy patterns in class III malocclusion. Their findings demonstrated a link between rugae length and malocclusion classes, notably class II and class III (10). The present study supports such results, as distinct rugae patterns were observed in various malocclusion types. This is consistent with Thoke B et al., who observed notable differences in the number, length, and pattern of palatal rugae among malocclusion groups (25). The results of the present study similarly demonstrated heterogeneity in these characteristics. Similar studies from the literature have been tabulated in (Table/Fig 6) (1),(3),(10),(15),(23),(24),(25).
Nevertheless, in alignment with the extensive literature, no unique pattern was identified as conclusive for any particular malocclusion class, highlighting the intrinsic complexity and variety of palatal rugae. The present study enhances the existing evidence regarding the diagnostic use of palatal rugae in orthodontics. The discovered changes in rugae patterns, although not conclusive, offer significant insights into their function in recognising and forecasting dentoskeletal abnormalities. Additional study, especially longitudinal and multipopulational studies, is advised to improve the clinical relevance of palatal rugoscopy.
Limitation(s)
The present study was a single-centre study, and a manual method for tracing the rugae was used. To validate the usefulness of utilising palatal rugae for the early detection of malocclusion, more research is required. Scanners and other digital technologies can be employed in future research to add interest to this topic.
The current study observed a significant relationship between the pattern and orientation of palatal rugae and Angle’s classification of malocclusion. However, no unique pattern was identified for any particular class of malocclusion. Further research needs to be conducted on this topic with a larger and equal sample size in each class of malocclusion.
DOI: 10.7860/JCDR/2025/76399.20712
Date of Submission: Oct 21, 2024
Date of Peer Review: Dec 09, 2024
Date of Acceptance: Jan 07, 2025
Date of Publishing: Mar 01, 2025
AUTHOR DECLARATION:
• Financial or Other Competing Interests: None
• Was Ethics Committee Approval obtained for this study? Yes
• Was informed consent obtained from the subjects involved in the study? Yes
• For any images presented appropriate consent has been obtained from the subjects. Yes
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• Plagiarism X-checker: Oct 22, 2024
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• iThenticate Software: Jan 05, 2025 (18%)
ETYMOLOGY: Author Origin
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